Nanomaterials

Nanosys

Milpitas, United States

Pioneer in quantum dot technology for display applications, developing high-performance nanomaterials for next-generation displays and lighting

Nanosphere (Luminex)

Northbrook, United States

Developer of molecular diagnostics platform using gold nanoparticle probe technology for rapid disease detection

Applied Nanotech Holdings

Austin, United States

Developer of nanotechnology applications including sensors, thermal management, and energy solutions

Cabot Corporation

Boston, United States

Global specialty chemicals and performance materials company producing carbon black, silica, and other nanomaterials

Nanoco Group

Manchester, United Kingdom

Nanoco Group plc stands as a world-leading innovator in the development and manufacture of cadmium-free quantum dots (CFQD), pioneering sustainable nanomaterial solutions for the display, lighting, and biological imaging industries. Founded in 2001 and headquartered in Manchester, United Kingdom, Nanoco emerged from groundbreaking research at the University of Manchester, establishing itself as a publicly-traded company on the London Stock Exchange AIM market under the ticker NANO. The company's proprietary molecular seeding technology enables the production of highly uniform, tunable quantum dots without toxic heavy metals like cadmium, addressing both performance requirements and environmental regulations. Their CFQD quantum dots offer exceptional color purity, brightness, and energy efficiency, making them ideal for next-generation display technologies including QLED televisions, monitors, and mobile devices. Nanoco's quantum dots can be precisely engineered to emit specific wavelengths of light, enabling displays with wider color gamuts approaching 100% of the Rec. 2020 standard. Beyond displays, the company has expanded into infrared sensing applications and biological imaging, where their nanomaterials enable advanced medical diagnostics and research tools. Throughout its history, Nanoco has established strategic partnerships with major electronics manufacturers and has been involved in significant industry initiatives to commercialize quantum dot technology. The company maintains state-of-the-art manufacturing capabilities and continues to invest heavily in research and development to advance nanomaterial science. As environmental regulations increasingly favor cadmium-free alternatives, Nanoco's technology positions the company at the forefront of the sustainable nanotechnology revolution. With over 50-100 employees and public funding, Nanoco represents a crucial bridge between university research and commercial nanotechnology applications, demonstrating how advanced nanomaterials can transform consumer electronics while meeting stringent environmental standards.

Strem Chemicals

Newburyport, United States

Strem Chemicals, Inc. has served as a cornerstone supplier of specialty chemicals and advanced nanomaterials to the global research community since its founding in 1964. Based in Newburyport, Massachusetts, this privately-held company has built an unparalleled reputation for providing high-purity, precisely characterized nanomaterials that enable cutting-edge research in nanotechnology, materials science, and catalysis. Strem's extensive nanomaterials catalog encompasses nanopowders, quantum dots, metal nanoparticles, and nano-catalysts, serving as essential building blocks for researchers developing next-generation technologies. The company's commitment to quality control and material characterization sets industry standards, with each product accompanied by detailed specifications including particle size distributions, surface properties, and purity analyses. Strem specializes in small-batch production of research-grade materials that are often unavailable from larger chemical suppliers, filling a critical niche in the nanotechnology ecosystem. Their metal nanoparticle offerings include gold, silver, platinum, and palladium nanoparticles in various sizes and surface functionalizations, widely used in catalysis, sensing, and biomedical research. The quantum dot portfolio spans various semiconductor materials including CdSe, InP, and perovskite quantum dots for optoelectronics and imaging applications. Strem's nanopowders include metal oxides, nitrides, and carbides used in advanced ceramics, catalysis, and energy storage research. The company maintains strong relationships with academic institutions and national laboratories worldwide, often collaborating with researchers to develop custom nanomaterials for specific applications. With a team of 50-100 employees including experienced chemists and materials scientists, Strem provides not just products but also technical expertise to support customer research. Their role in the nanotechnology supply chain is fundamental—enabling thousands of research projects that advance our understanding of nanoscale phenomena and drive innovation in fields ranging from renewable energy to medicine. As nanotechnology research continues to accelerate globally, Strem Chemicals remains an indispensable partner for scientists exploring the frontiers of materials science.

American Elements

Los Angeles, United States

American Elements, founded in 1998 and headquartered in Los Angeles, California, has grown into a global powerhouse in the manufacture and distribution of advanced materials, with particular expertise in engineered nanomaterials. As a vertically-integrated producer, the company manufactures an extraordinary range of nanoscale materials including nanopowders, nanowires, nanoparticles, graphene, quantum dots, and nanocomposites, serving industries from aerospace to pharmaceuticals. With 100-200 employees and private funding, American Elements operates manufacturing facilities across the United States and maintains a global distribution network reaching researchers and manufacturers on every continent. The company's nanomaterials portfolio is remarkably comprehensive, encompassing over 15,000 chemical formulations available in nano-scale forms. Their metal and metal oxide nanopowders find applications in catalysis, additive manufacturing, and advanced coatings, while semiconductor nanoparticles enable innovations in optoelectronics and energy conversion. American Elements pioneered the commercial production of many specialized nanomaterials, including rare earth nanopowders, boron nanopowders, and carbide nanoparticles that are essential for cutting-edge research. The company's graphene and carbon nanomaterial offerings include single-layer graphene, graphene oxide, and carbon nanotubes in various specifications. Beyond material production, American Elements invests significantly in quality control and characterization, utilizing transmission electron microscopy, X-ray diffraction, and surface analysis to ensure material specifications. The company has developed proprietary synthesis methods for producing ultra-pure nanomaterials with tightly controlled particle size distributions, critical for reproducible research and manufacturing. American Elements serves diverse markets including semiconductors, aerospace, renewable energy, life sciences, and defense, providing both catalog products and custom synthesis services. Their rapid fulfillment capabilities and technical support have made them a preferred supplier for time-sensitive research projects. As nanotechnology transitions from laboratory curiosity to industrial reality, American Elements plays a vital role in scaling up production of nanomaterials while maintaining the quality and consistency demanded by advanced applications, effectively bridging the gap between nanoscience research and commercial manufacturing.

Nanophase Technologies

Romeoville, United States

Nanophase Technologies Corporation, a NASDAQ-traded pioneer established in 1989, specializes in engineered nanomaterials and advanced formulations serving the personal care, surface treatment, and industrial markets. Based in Romeoville, Illinois, Nanophase has distinguished itself through proprietary manufacturing processes that produce precisely controlled zinc oxide nanoparticles and other metal oxide nanomaterials with exceptional uniformity and performance characteristics. With over $100 million in funding and 50-100 employees, the company has successfully transitioned from research-stage nanotechnology to commercial-scale production, demonstrating the viability of nanomaterials in consumer applications. Nanophase's core technology revolves around physical vapor synthesis methods that create ultra-pure, non-agglomerated nanoparticles with narrow size distributions—critical attributes for consistent product performance. Their zinc oxide nanoparticles, marketed extensively to the personal care industry, provide transparent, broad-spectrum UV protection in sunscreens and cosmetics without the white residue associated with conventional zinc oxide. These nanomaterials offer superior photostability and cosmetic elegance while maintaining safety profiles that meet stringent regulatory requirements. Beyond personal care, Nanophase develops surface treatment solutions where nanoparticle-enhanced coatings provide antimicrobial properties, enhanced durability, and improved optical characteristics. The company's personal care actives portfolio includes not only UV filters but also anti-aging ingredients and skin-conditioning agents enhanced through nanotechnology. Nanophase works closely with formulation scientists at major consumer product companies to integrate their nanomaterials into commercial products, providing technical support throughout product development and regulatory approval processes. The company's manufacturing facilities incorporate advanced process controls and quality assurance systems necessary for producing materials that contact human skin, meeting FDA and international safety standards. Throughout its three-decade history, Nanophase has accumulated extensive intellectual property including patents covering nanoparticle synthesis, surface modification, and formulation technologies. The company represents a successful model for commercializing nanotechnology in strictly regulated consumer markets, demonstrating how engineered nanomaterials can enhance product performance while addressing safety and environmental concerns. As consumer demand for high-performance, transparent sunscreens continues growing, Nanophase's expertise in cosmetically elegant nanoparticle formulations positions the company for continued growth in the multi-billion dollar personal care market.

Altair Nanotechnologies

Reno, United States

Altair Nanotechnologies, Inc., founded in 1973 and based in Reno, Nevada, has pioneered the development and commercialization of nano lithium titanate (nano-LTO) battery technology for fast-charging energy storage applications. With over $200 million in funding and 50-100 employees, Altair has focused on addressing critical limitations of conventional lithium-ion batteries through nanotechnology-enabled electrode materials. The company's proprietary nano-LTO material serves as a battery anode replacement for traditional graphite, offering transformative performance advantages including ultra-fast charging capabilities, exceptional cycle life exceeding 15,000 charge-discharge cycles, superior safety characteristics, and excellent low-temperature performance. Unlike graphite anodes that can form dendrites leading to safety hazards, nano-LTO's crystalline structure accommodates lithium ions without significant volume expansion, virtually eliminating the risk of thermal runaway. This safety advantage makes Altair's technology particularly valuable for applications requiring high reliability including grid energy storage, electric buses, and military systems. The company's ALTI-ESS (Energy Storage System) products target utility-scale and commercial energy storage markets, providing frequency regulation, peak shaving, and renewable energy integration capabilities. Altair's nanomaterials are synthesized using proprietary processes that control particle size and morphology at the nanoscale, maximizing electrochemical performance. The nano-structured titanate provides high surface area for rapid lithium-ion intercalation while maintaining structural stability across thousands of cycles. Throughout its history, Altair has partnered with major automotive and energy companies to deploy its technology in real-world applications including electric bus fleets that benefit from fast charging during route layovers. The company has also supplied battery systems for grid stabilization projects where the ability to absorb and release energy rapidly is crucial for grid reliability. While nano-LTO batteries have lower energy density compared to conventional lithium-ion cells, their superior power density, safety, and longevity create compelling value propositions for specific applications. Altair's work demonstrates how nanomaterial engineering can fundamentally alter battery performance characteristics, enabling applications that conventional battery chemistries cannot adequately address. As energy storage becomes increasingly critical for electric transportation and renewable energy integration, Altair's nano-LTO technology represents an important specialized solution within the diverse battery technology landscape.

NanoGram Corporation

Milpitas, United States

NanoGram Corporation, established in 1996 in Milpitas, California, has developed innovative nanomaterial synthesis technologies focused on producing functional inks and pastes for printed electronics, solar cells, and battery applications. With $50+ million in funding and 50-100 employees, NanoGram pioneered laser pyrolysis techniques that enable the production of highly controlled nanoparticles with unique properties optimized for energy applications. The company's core technology platform uses high-intensity laser beams to vaporize and rapidly cool precursor materials, creating nanoparticles with precise size, composition, and crystallinity not achievable through conventional synthesis methods. This sophisticated approach allows NanoGram to engineer materials at the atomic level, tailoring electrical, optical, and electrochemical properties for specific applications. NanoGram's product portfolio includes conductive inks for printed electronic circuits, photovoltaic pastes for solar cell metallization, and battery materials incorporating silicon nanoparticles for enhanced lithium-ion battery anodes. In the solar industry, the company developed nanoparticle-based pastes that improve electrical contact formation in crystalline silicon solar cells, potentially increasing cell efficiency while reducing manufacturing costs. Their silicon nanoparticle battery materials address a long-standing challenge in lithium-ion batteries—silicon's enormous volume expansion during lithium insertion. By engineering silicon at the nanoscale, NanoGram creates materials that accommodate volume changes while maintaining electrical connectivity, enabling higher-energy-density batteries. The company's printable electronic inks represent another significant application area, allowing low-cost, high-throughput manufacturing of electronic components through printing processes rather than traditional lithography. NanoGram works closely with manufacturers to integrate their nanomaterials into existing production lines, providing not just materials but also process integration expertise. The company's emphasis on manufacturability distinguishes it from pure research-focused nanotechnology companies—their materials are designed for scale-up and cost-effective production. Throughout its history, NanoGram has adapted its technology platform to address evolving market needs, shifting focus between solar, battery, and electronics applications as industries mature. The company exemplifies how advanced nanomaterial synthesis can enable disruptive manufacturing technologies, potentially transforming energy and electronics production through printable, solution-processable functional materials. As industries increasingly seek sustainable, low-cost manufacturing methods, NanoGram's approach to nanomaterial-enabled printed functionality offers promising pathways for next-generation product manufacturing.

Haydale Graphene Industries

Ammanford, United Kingdom

Haydale Graphene Industries plc, founded in 2010 and based in Ammanford, Wales, United Kingdom, has established itself as a leading graphene and advanced nanomaterials company through its proprietary plasma functionalization technology. Publicly traded on the London Stock Exchange AIM market under ticker HAYD, Haydale has raised over $30 million to develop and commercialize functionalized graphene and other nanomaterials for industrial applications. With 50-100 employees, the company operates at the intersection of materials science and advanced manufacturing, providing both materials and application development services. Haydale's core innovation is the HDPlas plasma process, which functionalizes graphene and other nanomaterials by introducing specific chemical groups onto their surfaces without damaging the underlying material structure. This surface modification dramatically improves the dispersibility of graphene in various matrices including polymers, inks, and coatings—addressing a fundamental challenge that has hindered graphene commercialization. Unfunctionalized graphene tends to agglomerate due to strong van der Waals forces, limiting its effectiveness in composite materials. Haydale's plasma treatment overcomes this limitation, enabling homogeneous distribution of graphene throughout host materials and maximizing performance enhancements. The company's product portfolio includes HDPlas-treated graphene nanoplatelets optimized for different applications including composite reinforcement, conductive inks, coatings, and energy storage. In composites, even small graphene additions can significantly enhance mechanical strength, thermal conductivity, and electrical properties. Haydale works with aerospace, automotive, and sports equipment manufacturers to develop graphene-enhanced materials with improved performance-to-weight ratios. The company has also developed graphene-enhanced inks for printed electronics and sensors, where electrical conductivity and flexibility are critical. Beyond graphene, Haydale applies its functionalization technology to other nanomaterials including carbon nanotubes and silicon carbide, expanding its addressable markets. The company operates a unique business model combining materials sales with contract research and application development services, partnering with customers to tailor nanomaterial solutions for specific requirements. Haydale's facilities include pilot-scale production equipment and comprehensive materials characterization capabilities, enabling rapid prototyping and scale-up. The company has established collaborations with major industrial partners and participates in government-funded research programs advancing graphene commercialization. Haydale represents the emerging class of nanotechnology companies focused not on nanomaterial production alone but on enabling technologies that make nanomaterials practically useful in real-world applications, addressing the critical gap between laboratory demonstrations and commercial products.

First Graphene

Perth, Australia

First Graphene Ltd., established in 2015 and headquartered in Perth, Australia, has rapidly emerged as a significant producer of high-quality graphene products derived from high-purity graphite resources. Publicly traded on the Australian Securities Exchange (ASX: FGR), the company has raised over $50 million to develop vertically-integrated graphene production capabilities spanning from raw material sourcing to application development. With 10-50 employees, First Graphene maintains a focused strategy of producing premium graphene products while working closely with industrial partners to demonstrate commercial viability in targeted applications. The company's flagship product line, PureGRAPH, encompasses various grades of graphene nanoplatelets produced through optimized exfoliation processes that preserve graphene's exceptional properties while enabling cost-effective manufacturing. First Graphene benefits from access to high-purity graphite ore from Sri Lankan sources, providing feedstock with minimal impurities—critical for producing graphene with consistent properties. The company operates production facilities capable of manufacturing multi-ton quantities of graphene annually, positioning it among the world's larger-scale graphene producers. PureGRAPH products are available in multiple grades tailored for different applications including concrete reinforcement, polymer composites, coatings, lubricants, and energy storage. In the concrete industry, even small additions of PureGRAPH can significantly enhance compressive strength, durability, and resistance to chemical attack while reducing cement content—offering both performance and sustainability benefits. First Graphene has conducted extensive testing demonstrating that graphene-enhanced concrete can achieve 30-40% strength improvements, potentially revolutionizing construction materials. The company has also developed graphene-enhanced elastomers and thermoplastics showing improved mechanical properties and thermal conductivity for automotive and industrial applications. Beyond materials sales, First Graphene invests in application development through its own research facilities and partnerships with universities and industrial companies. The company has established relationships with construction materials manufacturers, automotive suppliers, and equipment manufacturers to integrate PureGRAPH into commercial products. First Graphene's strategy emphasizes large-volume, lower-margin applications rather than niche high-margin markets, recognizing that graphene's true commercial potential lies in transforming high-volume industries. The company has achieved regulatory approvals and certifications necessary for construction and industrial applications, navigating complex qualification processes. As graphene transitions from laboratory curiosity to industrial commodity, First Graphene's focus on production scale, material consistency, and application validation positions the company to capitalize on emerging demand for performance-enhancing nanomaterials in traditional industries.

XG Sciences

Lansing, United States

XG Sciences, Inc., founded in 2006 in Lansing, Michigan, pioneered the commercial production of graphene nanoplatelets (xGnP) for energy storage, composites, and coatings applications. With over $50 million in funding and 50-100 employees, XG Sciences developed proprietary manufacturing processes that produce multi-layer graphene platelets with precisely controlled dimensions and properties optimized for industrial use. The company emerged from Michigan State University research on graphite intercalation and exfoliation, translating academic discoveries into scalable production technologies. XG Sciences' xGnP graphene nanoplatelets consist of small stacks of graphene sheets (typically 5-15 layers) with lateral dimensions of 5-25 micrometers, providing an optimal balance between graphene's exceptional properties and practical dispersibility in various matrices. These nanoplatelets offer extremely high surface area, excellent electrical and thermal conductivity, and superior mechanical properties while remaining compatible with conventional mixing and processing equipment. XG Sciences initially focused on lithium-ion battery applications, where xGnP additives in both anodes and cathodes improve electrical conductivity, enabling faster charging and higher power output. The company developed specialty graphene grades optimized for battery applications, with surface treatments and particle size distributions tailored for optimal electrode performance. In battery cathodes, xGnP creates conductive networks that improve rate capability, while in anodes, graphene can blend with silicon to accommodate volume expansion. Beyond batteries, XG Sciences targeted polymer composites where graphene nanoplatelets enhance mechanical strength, thermal management, and electrical properties at low loading levels (typically 1-5%). The company worked with automotive and electronics manufacturers to develop thermally conductive plastics for heat dissipation in electronic devices and lightweight structural composites for transportation applications. XG Sciences also developed graphene-enhanced coatings with improved barrier properties, corrosion resistance, and thermal management for industrial and marine applications. Throughout its history, the company invested heavily in application development laboratories and technical support, recognizing that successful graphene commercialization requires not just material production but also formulation expertise and customer collaboration. XG Sciences maintained extensive intellectual property portfolios covering graphene production methods, surface treatments, and specific applications. The company was acquired by Graphene X in 2020, but its technology and products continue as important contributors to the graphene industry. XG Sciences demonstrated that graphene nanoplatelets could transition from exotic research material to practical industrial additive, validating the commercial potential of graphene derivatives for large-scale applications.

Grolltex

San Diego, United States

Grolltex, Inc., founded in 2014 and based in San Diego, California, specializes in the manufacturing of high-quality single-layer graphene and two-dimensional (2D) materials using advanced chemical vapor deposition (CVD) techniques. As a privately-funded company with 10-50 employees, Grolltex has carved out a distinct niche in the graphene market by focusing on large-area, high-quality monolayer graphene and hexagonal boron nitride (hBN) films on various substrates. The company's technology enables the production of wafer-scale graphene with excellent uniformity and minimal defects—critical requirements for electronics and sensor applications where material quality directly impacts device performance. Grolltex's CVD process achieves precise control over graphene growth parameters including temperature, gas composition, and substrate preparation, resulting in reproducible material properties across production batches. The company offers monolayer graphene transferred onto various substrates including silicon wafers, glass, polymers, and metals, providing customers with ready-to-use materials for device fabrication. Beyond graphene, Grolltex produces hexagonal boron nitride films, an insulating 2D material with applications as a dielectric layer in graphene electronics and as a protective coating. The company has developed transfer technologies that move CVD-grown graphene from growth substrates to target substrates while preserving material quality—a technically challenging process critical for commercial viability. Grolltex serves research institutions and companies developing graphene-based electronics, sensors, and photonic devices where monolayer graphene's unique electronic and optical properties are essential. Application areas include transparent conductive electrodes for displays and solar cells, high-frequency transistors, chemical and biological sensors, and photonics components. The company provides customized graphene products tailored to specific customer requirements including patterned graphene, doped graphene, and graphene on specialized substrates. Grolltex has invested in quality control and characterization capabilities including Raman spectroscopy, atomic force microscopy, and electrical testing to ensure materials meet customer specifications. The company collaborates with researchers and device manufacturers to optimize graphene properties for emerging applications, providing technical support throughout the development process. Grolltex represents the specialized segment of the graphene industry focused on high-quality materials for electronics rather than bulk applications, addressing markets where graphene's unique electronic properties justify premium pricing. As graphene electronics transitions from research to commercialization, companies like Grolltex providing reliable sources of device-quality 2D materials play crucial enabling roles, supplying the building blocks for next-generation electronic, sensing, and photonic technologies that leverage graphene's extraordinary properties.

Graphenea

San Sebastian, Spain

Graphenea, S.A., established in 2010 in San Sebastian, Spain, has become a leading global supplier of CVD graphene and graphene oxide for research and industrial applications. With over $20 million in funding and 50-100 employees, Graphenea operates production facilities in Spain and the United States, serving customers across academia, industry, and government research institutions. The company emerged from CIC nanoGUNE research center, translating laboratory graphene synthesis into reproducible commercial production. Graphenea's product portfolio spans the graphene materials spectrum including CVD monolayer graphene on various substrates, graphene oxide dispersions and powders, and reduced graphene oxide. Their CVD graphene products feature large-area single-layer films with high quality and uniformity, suitable for electronics, sensors, and photonics research. The company offers graphene transferred onto silicon wafers, glass, polymers, and other substrates in standard sizes up to 4-inch wafers, with custom sizes available. Graphenea has developed specialized graphene products including graphene field-effect transistor (GFET) chips for sensor applications, where graphene's sensitivity to chemical and biological analytes enables ultra-sensitive detection. These GFET sensors can detect minute quantities of gases, biomolecules, and other analytes, with applications in environmental monitoring, medical diagnostics, and industrial process control. The company's graphene oxide products are widely used in research on composite materials, coatings, energy storage, and biomedical applications. Graphene oxide's oxygen-containing functional groups make it dispersible in water and provide chemical handles for further functionalization, enabling diverse applications. Graphenea maintains rigorous quality control processes including comprehensive characterization of each production batch using Raman spectroscopy, atomic force microscopy, and optical microscopy to verify material properties. The company has established itself as a reliable supplier for researchers requiring consistent, well-characterized graphene materials for reproducible experiments. Beyond materials sales, Graphenea offers custom synthesis services, developing tailored graphene products for specific customer requirements. The company has built strong relationships with academic researchers worldwide, supporting thousands of publications involving their graphene products. Graphenea participates in European research consortia advancing graphene applications, contributing expertise in materials production and characterization. As the graphene research community has grown, Graphenea has scaled production to meet increasing demand while maintaining the material quality essential for meaningful research. The company represents the critical infrastructure supporting graphene research and development, providing the standardized, characterized materials necessary for advancing our understanding of graphene's properties and potential applications across diverse fields.

Applied Nanostructured Solutions

Baltimore, United States

Applied Nanostructured Solutions, LLC (ANS), founded in 2008 and based in Baltimore, Maryland, develops carbon nanotube-infused materials for aerospace and industrial structural applications as a subsidiary of Lockheed Martin Corporation. With a private funding structure and 50-100 employees, ANS has focused on translating CNT technology from research into qualified aerospace materials that meet stringent industry requirements. The company emerged from recognition that carbon nanotubes' exceptional mechanical and electrical properties could enhance fiber-reinforced composites if integration challenges could be overcome. ANS developed proprietary processes for infusing carbon nanotubes directly onto carbon fiber and glass fiber surfaces, creating CNT-infused fibers that serve as drop-in replacements for conventional reinforcement fibers in composite manufacturing. This approach addresses a fundamental challenge in CNT composites—achieving good dispersion and interfacial bonding between nanotubes and the polymer matrix. By growing or depositing CNTs directly on fiber surfaces, ANS creates intimate mechanical interlocking and chemical bonding between nanotubes and matrix resins. The resulting structural composites exhibit enhanced mechanical properties including improved interlaminar strength, fracture toughness, and damage tolerance compared to conventional composites. Additionally, CNT-infused fibers provide electrical conductivity, enabling multifunctional composites with integrated sensing, electromagnetic shielding, and lightning strike protection capabilities. ANS has worked closely with aerospace manufacturers to qualify CNT-infused materials for aircraft structures, demonstrating that nanotube enhancements can be achieved within existing manufacturing processes and quality assurance frameworks. The company's materials have been incorporated into commercial and military aircraft components, representing significant validation of CNT composite technology. Beyond aerospace, ANS targets automotive, wind energy, and sporting goods applications where lightweight, high-strength materials provide competitive advantages. The company's CNT-infused fibers have been used in automotive body panels, wind turbine blades, and high-performance sporting equipment. ANS maintains production facilities capable of treating fibers at scales required for industrial composite manufacturing, with quality control processes ensuring consistent CNT loading and distribution. As a Lockheed Martin subsidiary, ANS benefits from access to aerospace expertise, testing facilities, and customer relationships while maintaining focus on nanomaterial technology development. The company's success in qualifying nanotechnology-enhanced materials for aerospace applications demonstrates that nanomaterials can meet the rigorous performance, reliability, and safety requirements of highly regulated industries. ANS represents an important model for nanotechnology commercialization in structural materials, showing how CNT enhancements can be integrated into existing manufacturing ecosystems rather than requiring entirely new production approaches, facilitating adoption in conservative, high-reliability industries.

OCSiAl

Luxembourg, Luxembourg

OCSiAl Group, founded in 2009 and headquartered in Luxembourg, has achieved the remarkable distinction of becoming the world's largest manufacturer of single-wall carbon nanotubes (SWCNT), enabling mass-market applications through unprecedented production scale and cost reduction. With over $200 million in funding and 500-1,000 employees, OCSiAl operates globally with production facilities in Europe, Asia, and North America, producing its flagship TUBALL SWCNT products measured in tons rather than grams. The company's breakthrough synthesis technology enables continuous, large-scale production of high-quality single-wall carbon nanotubes at costs dramatically lower than previous methods, fundamentally changing the economics of CNT applications. OCSiAl's TUBALL products consist of ultra-long SWCNTs (up to several micrometers in length) with high aspect ratios and excellent electrical conductivity, making them exceptional additives for creating conductive composites, coatings, and energy storage materials. At remarkably low loading levels (typically 0.01-0.1% by weight), TUBALL nanotubes form percolating networks that impart electrical conductivity to polymers, elastomers, and other matrices. The company targets large-volume applications where CNTs can deliver significant performance benefits, including lithium-ion battery electrodes, transparent conductive films, antistatic materials, EMI shielding, rubber compounds, and composite materials. In lithium-ion batteries, TUBALL additives improve electrode conductivity, enabling faster charging, higher power delivery, and better cycle life—critical for electric vehicles and energy storage systems. OCSiAl has established partnerships with major battery manufacturers worldwide, with TUBALL-containing batteries in commercial production for automotive applications. The company has developed application-specific TUBALL formulations including ready-to-use dispersions in various solvents and concentrates optimized for different manufacturing processes, facilitating customer adoption. OCSiAl maintains extensive application development laboratories working with customers to optimize CNT integration into their products and manufacturing processes. The company has achieved regulatory approvals for TUBALL products in multiple jurisdictions, addressing safety and environmental concerns associated with nanomaterials. OCSiAl's remarkable production scale—producing more SWCNTs annually than all other manufacturers combined—has transformed carbon nanotubes from exotic research materials to practical industrial additives. The company's success demonstrates that with appropriate technology and scale, nanomaterials can achieve cost structures compatible with high-volume applications, fulfilling long-standing promises of nanotechnology revolutionizing major industries. As electric vehicles and energy storage demand surge, OCSiAl's position as the dominant SWCNT supplier positions the company at the center of critical technology supply chains.

CNano Technology

Zhenjiang, China

CNano Technology Limited, established in 2007 and based in Zhenjiang, China, has emerged as a leading large-scale manufacturer of multi-wall carbon nanotubes (MWCNT) for battery and composite applications, particularly focusing on the rapidly growing lithium-ion battery market. With over $100 million in funding and 200-500 employees, CNano operates high-volume production facilities in China capable of producing hundreds of tons of MWCNTs annually, serving global customers in energy storage, composites, and conductive materials markets. The company's flagship Flotube CNT products are specifically engineered for lithium-ion battery applications, where they serve as conductive additives in both cathodes and anodes. In battery electrodes, even small additions of CNTs (typically 1-3% by weight) dramatically improve electrical conductivity, enabling better power performance, faster charging, and higher energy utilization. CNano's focus on battery applications has proven strategically prescient as the electric vehicle revolution drives exponential growth in lithium-ion battery production. The company supplies CNT additives to major battery manufacturers in China, South Korea, Japan, and other countries, with its products incorporated into millions of battery cells for electric vehicles, consumer electronics, and energy storage systems. CNano's MWCNTs are produced through catalytic chemical vapor deposition processes optimized for consistent quality, controlled diameter distributions, and surface properties tailored for battery applications. The company has developed various MWCNT grades including long nanotubes for maximizing electrical percolation, short nanotubes for easier dispersion, and surface-treated variants for specific battery chemistries. Beyond batteries, CNano targets composite materials applications where MWCNTs enhance mechanical strength, electrical conductivity, and thermal properties of polymers and elastomers. The company's products are used in automotive components, industrial materials, and consumer goods requiring electrostatic dissipation or EMI shielding. CNano has invested significantly in production scale-up and cost reduction, recognizing that commercial success in high-volume applications requires not just technical performance but also competitive pricing. The company's position in China provides proximity to the world's largest battery manufacturing ecosystem and access to the supply chains driving electric vehicle adoption. CNano has established quality management systems meeting automotive industry requirements, ensuring consistent material properties across large production volumes. As China has become the dominant force in lithium-ion battery production, CNano has benefited from being embedded in this manufacturing ecosystem, providing localized technical support and rapid response to customer needs. The company represents the emerging class of Chinese nanomaterial manufacturers achieving global scale, demonstrating how nanotechnology production is globalizing with significant capacity concentrated in Asia's manufacturing centers.

Zeon Corporation

Tokyo, Japan

Zeon Corporation, founded in 1950 and headquartered in Tokyo, Japan, is a major chemical company that has become a significant producer of super-growth carbon nanotubes (SG-CNT) alongside its traditional synthetic rubber and specialty chemical businesses. Publicly traded on the Tokyo Stock Exchange (TYO: 4205) with over 1,000+ employees, Zeon leverages its extensive chemical manufacturing expertise to produce high-quality carbon nanotubes marketed under the ZEONANO brand. The company entered the carbon nanotube market by licensing super-growth CVD technology developed at Japan's National Institute of Advanced Industrial Science and Technology (AIST), which enables rapid, efficient synthesis of exceptionally long and pure single-wall carbon nanotubes. Zeon's SG-CNT production technology can grow centimeter-length nanotubes with extremely high purity and minimal catalyst residues, resulting in CNTs with superior electrical and mechanical properties. These high-quality nanotubes find applications in transparent conductive films, high-performance composites, energy storage devices, and advanced sensors. Zeon has focused particularly on transparent conductive films where ZEONANO SG-CNTs provide alternatives to indium tin oxide (ITO) for touchscreens, displays, and photovoltaic electrodes. CNT-based transparent conductors offer advantages including mechanical flexibility, stretchability, and potentially lower costs compared to brittle ITO films. The company has developed CNT film manufacturing processes compatible with roll-to-roll production, enabling large-area transparent electrode fabrication for flexible electronics. Beyond electronics, Zeon leverages its core expertise in polymer science to develop CNT-enhanced elastomers and thermoplastics with improved electrical conductivity, mechanical strength, and thermal management for automotive and industrial applications. As a major chemical company, Zeon brings significant advantages to nanotechnology commercialization including established manufacturing capabilities, quality control expertise, global distribution networks, and customer relationships across multiple industries. The company's approach integrates carbon nanotube production within its broader specialty chemicals portfolio, cross-leveraging technologies and market channels. Zeon participates in Japanese government initiatives advancing carbon nanotube applications and collaborates with academic institutions on next-generation CNT technologies. The company's position in Japan—home to significant carbon nanotube research and several major electronics manufacturers—provides strategic advantages in developing applications for Japanese industry. Zeon's involvement in carbon nanotubes exemplifies how established chemical companies are increasingly incorporating nanotechnology into their product portfolios, bringing nanomaterials from research laboratories to commercial chemical production. As carbon nanotube applications mature, companies like Zeon with deep chemical manufacturing expertise and broad market access play crucial roles in scaling production and integrating nanomaterials into diverse industrial products, bridging the gap between specialty nanomaterial producers and end-use applications.

Cerion Nanomaterials

Rochester, United States

Cerion Nanomaterials, LLC (formerly Cerion Technologies), founded in 2007 and based in Rochester, New York, manufactures engineered nanoparticle dispersions for advanced materials applications across diverse industries. With over $30 million in funding and 10-50 employees, Cerion has developed proprietary synthesis technologies enabling precise control over nanoparticle composition, size, and surface chemistry—critical parameters determining nanomaterial performance. The company focuses particularly on metal oxide nanoparticles including cerium oxide (CeO2), which has found applications in fuel additives, polishing compounds, coatings, and catalysis. Cerion's cerium oxide nanoparticles exhibit unique catalytic properties arising from their nanoscale dimensions and surface chemistry, functioning as oxygen buffers that can alternate between oxidation states. These properties make nano-ceria valuable in applications including diesel fuel additives where they promote more complete combustion and reduce particulate emissions, automotive catalytic converters where they enhance pollutant oxidation, and fuel cells where they improve oxygen ion conductivity. The company has developed cost-effective synthesis methods producing stable, well-dispersed nanoparticle suspensions that can be easily integrated into customer formulations and manufacturing processes. Cerion's technology platform extends beyond cerium oxide to other metal oxides including zirconium oxide, aluminum oxide, and mixed-metal oxides, each tailored for specific applications. The company provides customized nanoparticle dispersions matching customer requirements for particle size, surface functionalization, dispersion medium, and concentration. Cerion's chemical synthesis routes enable composition control impossible with physical synthesis methods, allowing atomic-level engineering of multifunctional nanoparticles. The company serves diverse markets including energy, automotive, electronics, coatings, and personal care, providing both standard catalog products and custom synthesis services. Cerion maintains quality control systems ensuring batch-to-batch consistency critical for commercial applications, with comprehensive characterization using transmission electron microscopy, dynamic light scattering, and surface analysis techniques. The company has navigated complex regulatory landscapes for nanomaterial applications, obtaining necessary approvals for fuel additive and other applications involving human or environmental exposure. Cerion's business model combines material sales with contract synthesis services, leveraging its nanoparticle engineering expertise to develop tailored solutions for customer challenges. The company has established partnerships with larger chemical companies and product manufacturers seeking nanomaterial expertise without developing internal capabilities. Cerion represents the important class of nanotechnology companies focused on enabling technologies—providing engineered building blocks that other companies incorporate into their products rather than developing end-user products directly. As nanotechnology permeates diverse industries, specialized nanomaterial synthesizers like Cerion play crucial roles in supplying precisely engineered materials that enable performance improvements across applications from catalysis to energy storage, demonstrating how advanced synthesis capabilities translate into commercial value.

Nanosolar

San Jose, United States

Pioneer in printed CIGS solar cells using nanoparticle ink technology

Sila Nanotechnologies

Alameda, United States

Developer of silicon-dominant battery anode materials using nanocomposite technology

Amprius Technologies

Fremont, United States

Developer of high-energy density lithium-ion batteries using silicon nanowire anodes

Enovix Corporation

Fremont, United States

Developer of silicon-anode lithium-ion batteries using advanced nanofabrication

QuantumScape

San Jose, United States

Developer of solid-state lithium-metal batteries using ceramic separator technology

Nantero

Woburn, United States

Developer of NRAM nonvolatile memory technology using carbon nanotube fabrics

Fibenamics

Guimaraes, Portugal

Specialized in electrospun nanofiber production for healthcare and industrial applications

nanoComposix

San Diego, United States

Designer and manufacturer of precisely engineered nanoparticles for diagnostics and research

NanoH2O (LG Chem)

El Segundo, United States

Developer of nanotechnology-enabled reverse osmosis membranes for water desalination

Porifera

Hayward, United States

Developer of forward osmosis membranes using carbon nanotube and graphene oxide

Luna Innovations

Roanoke, United States

Developer of fiber optic sensing and nanotechnology products for defense and healthcare

National Nanotechnology Initiative

Washington, United States

US government R&D initiative coordinating nanotechnology research across federal agencies

National Institute for Nanotechnology

Edmonton, Canada

Canada's national research facility for nanotechnology research and development

National Nanotechnology Center (NANOTEC)

Pathum Thani, Thailand

Thailand's national nanotechnology research center under NSTDA

Tata Institute Nano Sciences

Mumbai, India

Premier research institute in India for nanotechnology and materials science

NanoMalaysia Berhad

Cyberjaya, Malaysia

Government agency driving nanotechnology commercialization in Malaysia

Nanyang Technological University - CNRS

Singapore, Singapore

International joint laboratory for nanotechnology and materials science research

Berkeley Lab Molecular Foundry

Berkeley, United States

DOE user facility for nanoscience research at Lawrence Berkeley National Laboratory

Center for Functional Nanomaterials

Upton, United States

DOE user facility for nanoscience at Brookhaven National Laboratory

NanoWerk

Honolulu, Germany

Leading nanotechnology portal providing news, databases, and educational resources

NanoMaterials Technology

Singapore, Singapore

Producer of zinc oxide nanoparticles and other nanomaterial products

NanoGraf Corporation

Chicago, United States

Developer of silicon-graphene anode materials for high-energy batteries

Group NanoXplore

Montreal, Canada

High-volume producer of graphene powder for plastics, composites, and battery applications

NanoXact

San Diego, United States

Brand offering precisely manufactured nanoparticles for life science applications

NanoIntegris

Boisbriand, Canada

Producer of high-purity semiconducting and metallic carbon nanotubes

Nanocyl

Sambreville, Belgium

Leading European producer of multiwall carbon nanotubes

Arkema - Graphistrength

Colombes, France

Major chemical company producing Graphistrength carbon nanotubes

Showa Denko - VGCF

Tokyo, Japan

Producer of vapor grown carbon fiber for battery and composite applications

Innova Dynamics

San Jose, United States

Developer of silver nanowire transparent conductors for touch screens and displays

Cambrios Technologies

Sunnyvale, United States

Pioneer in silver nanowire technology for transparent conductive films

C3Nano

Hayward, United States

Developer of silver nanowire transparent conductive films for displays and touch screens

Nano One Materials

Burnaby, Canada

Clean technology company developing patented processes for low-cost, high-performance cathode materials for lithium-ion batteries

Nanotech Energy

Los Angeles, United States

Developer of graphene-based batteries and energy storage solutions, spun out of UCLA research

Solid Power

Louisville, United States

Developer of all-solid-state battery technology using sulfide-based solid electrolytes

BASF

Ludwigshafen, Germany

World's largest chemical company with significant nanomaterials portfolio including catalysts, coatings, and battery materials

Evonik Industries

Essen, Germany

Specialty chemicals company and leading producer of fumed silica, precipitated silica, and other nanomaterials

3M Company

Saint Paul, United States

Diversified technology company with extensive nanotechnology applications in films, coatings, and filtration

Merck KGaA

Darmstadt, Germany

Science and technology company supplying nanomaterials through Sigma-Aldrich brand for research and industry

Nanomix

Emeryville, United States

Nanomix, established in 2000 in Emeryville, California, is a pioneering company in nanosensor technology, specializing in carbon nanotube-based electronic biosensors for point-of-care medical diagnostics. The company has raised over $75 million in funding to develop its innovative diagnostic platform that leverages the exceptional electronic and chemical properties of carbon nanotubes for rapid, accurate medical testing. Carbon nanotubes, cylindrical nanostructures with diameters of just a few nanometers, exhibit extraordinary sensitivity to surface chemical changes, making them ideal transducers for biosensing applications. Nanomix's proprietary technology functionalizes carbon nanotubes with specific recognition molecules that bind target biomarkers, causing measurable changes in the nanotubes' electrical conductivity. This direct electronic detection mechanism enables rapid, label-free measurement of clinically relevant analytes. The company's flagship eLab diagnostic system brings laboratory-quality testing to the point of care, providing rapid results for critical biomarkers directly at the patient's bedside, in emergency departments, or in physician offices. The system can measure multiple analytes including blood gases, electrolytes, and metabolites from small blood samples, with results available in minutes rather than the hours typically required for central laboratory testing. This speed enables faster clinical decision-making, particularly critical in acute care settings. The nanosensor technology offers significant advantages including small sample volumes, minimal reagent consumption, and the potential for highly multiplexed testing. Nanomix's platform addresses the growing demand for decentralized diagnostic testing, aligning with trends toward personalized medicine and value-based healthcare. The company's work exemplifies how nanotechnology can transform medical diagnostics, bringing sophisticated analytical capabilities out of centralized laboratories and directly to patients. As point-of-care testing continues to expand globally, Nanomix's carbon nanotube-based sensors represent a significant technological advancement in making rapid, accurate diagnostic information immediately available to healthcare providers.

SES AI

Boston, United States

SES AI, established in 2012 in Boston, Massachusetts, is a publicly-traded company (NYSE: SES) pioneering hybrid lithium-metal battery technology for electric vehicles and other high-energy applications. With over $500 million in funding and 200-500 employees, SES AI represents a major effort to commercialize next-generation battery chemistry that could dramatically improve electric vehicle range and performance. The company's flagship Apollo lithium-metal battery platform combines lithium metal anodes with advanced liquid electrolytes, achieving significantly higher energy density than conventional lithium-ion batteries while maintaining safety and cycle life. Lithium metal anodes offer theoretical capacity nearly ten times higher than graphite anodes used in traditional lithium-ion batteries, but have historically suffered from dendrite formation—needle-like metallic structures that grow at the nanoscale during charging and can cause short circuits and safety hazards. SES AI has developed proprietary electrolyte formulations and battery architectures that suppress dendrite growth through nanoscale interface engineering and electrochemical stabilization. The company's AI-driven approach leverages machine learning and computational modeling to design and optimize electrolyte compositions, accelerating development cycles that traditionally required years of trial-and-error experimentation. This integration of artificial intelligence with materials science and nanotechnology enables rapid screening of thousands of electrolyte candidates to identify formulations with optimal performance characteristics. SES AI has established partnerships with major automotive manufacturers including General Motors and Hyundai-Kia to develop and scale lithium-metal batteries for electric vehicles. The Apollo platform targets energy densities exceeding 400 Wh/kg, potentially enabling electric vehicles with ranges exceeding 600 miles on a single charge. The technology's nanoscale electrolyte-electrode interfaces are critical to controlling lithium deposition morphology and ensuring stable, safe operation. As the electric vehicle market expands globally, SES AI's lithium-metal battery technology could address key barriers to EV adoption including range anxiety and charging time.

Ionic Materials

Woburn, United States

Developer of solid polymer electrolyte technology for next-generation batteries

Group14 Technologies

Woodinville, United States

Producer of silicon-carbon composite anode materials for lithium-ion batteries

StoreDot

Herzliya, Israel

Developer of extreme fast charging (XFC) battery technology using proprietary nanoparticle compounds

Nanosys China

Suzhou, China

Chinese subsidiary focused on quantum dot materials for display industry

Mesolight

Suzhou, China

Producer of perovskite and cadmium-free quantum dots for display and lighting applications

QD Vision

Lexington, United States

Pioneer in quantum dot technology for displays and lighting applications

Nanotec Srl

Milan, Italy

Italian nanotechnology company specializing in protective coatings and surface treatments

Nanotech Industrial Solutions

Houston, United States

Developer of tungsten disulfide nanoparticle lubricants and coatings for industrial applications

NanoMagnetics

Bristol, United Kingdom

Producer of magnetic nanoparticles for biomedical and industrial applications

Hyperion Catalysis International

Cambridge, United States

Pioneer in multi-wall carbon nanotube production and applications

Hanwha Chemical

Seoul, South Korea

Major Korean chemical conglomerate with significant CNT and nanomaterials production

LG Chem

Seoul, South Korea

Global chemical company and major producer of battery materials and CNT additives

Kumho Petrochemical

Seoul, South Korea

Korean petrochemical company with large-scale carbon nanotube production

Toray Industries

Tokyo, Japan

Japanese multinational producing advanced carbon fibers, CNTs, and nanomaterials

Hodogaya Chemical

Tokyo, Japan

Japanese chemical company specializing in CNTs for electronic applications

Jiangsu Cnano Technology

Zhenjiang, China

One of China's largest producers of carbon nanotubes for battery applications

Shenzhen Nanotech Port

Shenzhen, China

Chinese manufacturer of carbon nanotubes and graphene for various applications

Chengdu Organic Chemicals

Chengdu, China

Chinese Academy of Sciences spin-off producing CNTs, fullerenes, and nanomaterials

Raymor Industries

Boisbriand, Canada

Canadian producer of single-wall carbon nanotubes using plasma technology

Thomas Swan

Consett, United Kingdom

UK chemical company and major producer of Elicarb graphene and carbon nanomaterials

Applied Graphene Materials

Redcar, United Kingdom

UK producer of graphene nanoplatelets for coatings and composite applications

Perpetuus Carbon Technologies

Swansea, United Kingdom

UK company producing functionalized graphene using plasma technology

NanoXplore

Montreal, Canada

World's largest graphene producer with integrated battery and plastics solutions

Sixth Element Materials

Changzhou, China

Major Chinese graphene producer with large-scale manufacturing capabilities

Ningbo Morsh Technology

Ningbo, China

Chinese graphene company focused on thermal management and energy applications

Standard Graphene

Ulsan, South Korea

Korean graphene company producing CVD graphene and graphene oxide

Graphene NanoChem

Kuala Lumpur, Malaysia

Malaysian graphene company developing energy and industrial applications

Talga Group

Perth, Australia

Swedish-Australian company developing graphene anode materials for batteries

Black Swan Graphene

Ottawa, Canada

Canadian graphene company focused on asphalt and concrete applications

Elcora Advanced Materials

Halifax, Canada

Canadian graphene and graphite company for battery applications

NanoTechNexus

Bangalore, India

Indian nanotechnology company developing sensors and nanomaterial applications

Reinste Nano Ventures

Delhi, India

Indian nanomaterials manufacturer producing nanoparticles and quantum dots

Nanoshel

Dehradun, India

Indian manufacturer of nanopowders, nanotubes, and nanomaterials for research

Ad-Nano Technologies

Shimoga, India

Indian producer of metal oxide nanoparticles and nanopowders

Nano Labs Corp

Wuxi, China

Chinese company producing carbon nanotubes for electronics and energy storage

Nanomakers

Rambouillet, France

French producer of silicon nanoparticles for battery and other applications

NanoPow

Lund, Sweden

Swedish startup producing silicon nanopowders for next-generation batteries

US Research Nanomaterials

Houston, United States

US manufacturer and supplier of nanomaterials for research and industrial use

SkySpring Nanomaterials

Houston, United States

US supplier of nanomaterials including oxide and metallic nanoparticles

Plasmachem

Berlin, Germany

German manufacturer of nanodiamonds and specialty nanoparticles

Daicel Corporation

Osaka, Japan

Japanese chemical company producing cellulose nanofibers and specialty materials

Nippon Paper Industries

Tokyo, Japan

Japanese paper company developing cellulose nanofiber applications

CelluForce

Montreal, Canada

World's largest producer of cellulose nanocrystals (CNC)

Blue Goose Biorefineries

Saskatoon, Canada

Canadian producer of nanocellulose from agricultural residues

Borregaard

Sarpsborg, Norway

Norwegian biochemical company producing microfibrillated cellulose

FiberLean Technologies

Par, United Kingdom

UK producer of microfibrillated cellulose for paper and packaging

Suzano

Sao Paulo, Brazil

World's largest eucalyptus pulp producer developing nanocellulose products

Horiba Scientific

Kyoto, Japan

Global leader in analytical instruments including Raman and particle characterization

Protochips

Morrisville, United States

US developer of in-situ TEM sample holders for nanoscale dynamic experiments

Nanoscience Inc

Alexandria, United States

US company providing nanotechnology instruments and coating services

NeoGraf Solutions

Lakewood, United States

Leading producer of flexible graphite and thermal management materials

2D Carbon Tech

Changzhou, China

Major Chinese producer of graphene and graphene-based products

SouthWest NanoTechnologies

Norman, United States

Producer of high-quality single-wall carbon nanotubes

Zeon Corporation

Tokyo, Japan

Major Japanese producer of single-wall carbon nanotubes

Element Six

Didcot, United Kingdom

World leader in synthetic diamond supermaterials

NanoMaterials Technology

Singapore, Singapore

Asian producer of ceramic and metal oxide nanoparticles

Nanobrick

Seoul, South Korea

Korean developer of photonic crystal technology for displays

Nanopartz

Loveland, United States

Producer of gold nanoparticles and nanorods for research

Quantum Solutions

Daejeon, South Korea

Korean producer of quantum dots for displays and lighting

Hansol Chemical

Seoul, South Korea

Korean producer of quantum dots and electronic materials

Seoul Semiconductor

Ansan, South Korea

Major LED manufacturer with unique Acrich and SunLike technologies

NanOasis

San Leandro, United States

Developer of carbon nanotube-based water filtration membranes

Aquaporin A/S

Kongens Lyngby, Denmark

Pioneer in biomimetic water filtration using aquaporin proteins

Nanolumi

Eindhoven, Netherlands

Developer of quantum dot technology for greenhouse lighting

UbiQD

Los Alamos, United States

Developer of quantum dots for agriculture and solar applications

Nanoptek

Maynard, United States

Developer of nanostructured catalysts for hydrogen production

Enevate

Irvine, United States

Developer of silicon-dominant anode battery technology

Enovix

Fremont, United States

Developer of 3D silicon lithium-ion batteries

24M Technologies

Cambridge, United States

Developer of SemiSolid lithium-ion battery technology

Prieto Battery

Fort Collins, United States

Developer of 3D nanostructured solid-state batteries

Nanoramic Laboratories

Boston, United States

Developer of carbon nanotube-based energy storage materials

Nanotextiles

Yokneam, Israel

Developer of nano-enhanced antimicrobial textiles

CNRS

Paris, France

France's premier scientific research organization with major nanotechnology programs

Max Planck Institute

Stuttgart, Germany

German research organization with multiple nanotechnology-focused institutes

Nanyang Technological University

Singapore, Singapore

Leading Asian university with strong nanotechnology research programs

National Institute for Materials Science

Tsukuba, Japan

Japan's premier materials science research institution

Chinese Academy of Sciences

Beijing, China

China's largest research organization with major nanotechnology divisions

Shin-Etsu Chemical

Tokyo, Japan

World's largest silicon wafer and semiconductor materials producer

SUMCO

Tokyo, Japan

Second-largest silicon wafer producer globally

SK Siltron

Gumi, South Korea

Korean silicon wafer and SiC substrate manufacturer

Cabot Microelectronics

Aurora, United States

Global leader in CMP slurries and polishing pads

NanoMech Holdings

Springdale, United States

Developer of nano-enhanced lubricants and coatings

Nano Ink (formerly NanoInk)

Skokie, United States

Pioneer in dip-pen nanolithography technology

2D Semiconductors

Scottsdale, United States

Manufacturer of 2D materials including MoS2, WS2, and other TMDCs

NanoGrafix

Austin, United States

Nano-optic security and authentication technology company

Skeleton Technologies

Tallinn, Estonia

Graphene ultracapacitor manufacturer for energy storage

NuMat Technologies

Skokie, United States

Leading MOF company for semiconductor gas storage and delivery

MOF Technologies

Belfast, United Kingdom

Commercial MOF manufacturer using mechanochemical synthesis

Promethean Particles

Nottingham, United Kingdom

Manufacturer of MOFs and nanomaterials using continuous hydrothermal synthesis

Framergy

College Station, United States

MOF manufacturer for gas separations and carbon capture

BASF MOF Materials

Ludwigshafen, Germany

BASF's MOF division producing Basolite materials at industrial scale

Nano-C

Westwood, United States

Manufacturer of fullerenes and carbon nanomaterials

Elcora Advanced Materials

Halifax, Canada

Graphite mining and graphene production

Perpetuus Carbon Technologies

Swansea, United Kingdom

Large-scale functionalized graphene and CNT production

Cabot Corporation Specialty Carbons

Boston, United States

Specialty carbon materials including CNTs and conductive additives

Haydale Graphene Industries

Ammanford, United Kingdom

Graphene and nanomaterial functionalization specialist

Teijin Limited

Osaka, Japan

Advanced materials including nanofibers and carbon fiber composites

JSR Corporation

Tokyo, Japan

Advanced materials for semiconductor lithography including EUV resists

Samsung SDI

Yongin, South Korea

Advanced battery materials with nano-engineered electrodes

SK Innovation

Seoul, South Korea

Battery separators and energy materials with nanotechnology

Hanwha Solutions

Seoul, South Korea

Solar cells and advanced materials with nanotechnology

CATL

Ningde, China

World's largest EV battery manufacturer with nano-engineered cells

Jiangsu Nata Opto

Suzhou, China

Quantum dot materials for next-gen displays

Suzhou Xingshuo Nanotech

Suzhou, China

High-purity metal and oxide nanoparticle manufacturer

Shenzhen Nanotech Port

Shenzhen, China

Pioneer Chinese carbon nanotube and nanomaterial producer

STMicroelectronics

Geneva, Switzerland

Global semiconductor leader in MEMS, MCUs, and SiC

TanKeBlue Semiconductor

Beijing, China

SiC and sapphire substrate manufacturer

Nata Opto

Suzhou, China

Quantum dot and phosphor materials for displays

CMC Materials

Aurora, United States

CMP slurries and pads for semiconductor polishing

Dow Electronic Materials

Midland, United States

CMP slurries and specialty materials for electronics

REC Silicon

Sandvika, Norway

High-purity silicon materials for solar and electronics

Okmetic

Vantaa, Finland

High-quality silicon wafers for sensors and MEMS

Bharat Heavy Electricals Nano

New Delhi, India

Nanotechnology R&D for power and industrial applications

Indian Institute of Science Nano

Bangalore, India

Premier nanotechnology research center in India

Reinste Nano Ventures

New Delhi, India

Nanomaterial manufacturer and supplier

Log 9 Materials

Bangalore, India

Graphene and aluminum-based batteries

Siltronic Singapore

Singapore, Singapore

Silicon wafer manufacturing facility in Singapore

GlobalWafers Singapore

Singapore, Singapore

Major silicon wafer manufacturer

NTU Nanyang NanoMaterials

Singapore, Singapore

Leading nanotechnology research at NTU

Samsung Vietnam

Thai Nguyen, Vietnam

Major Samsung electronics manufacturing complex

PTT Global Chemical

Bangkok, Thailand

Advanced polymers and nanomaterials for packaging

MTEC Thailand

Pathum Thani, Thailand

Thailand's national center for nanotechnology

Braskem

São Paulo, Brazil

Largest petrochemical company in Americas with nano R&D

Nanox Brazil

São Carlos, Brazil

Antimicrobial nanoparticle coatings and additives

Petrobras CENPES

Rio de Janeiro, Brazil

Petrobras research center with nano-catalysis programs

Sigma-Aldrich Mexico

Toluca, Mexico

Nanomaterial supplier and manufacturing in Mexico

YPF Tecnología

Berisso, Argentina

YPF R&D center with nano-catalysis research

INVAP

San Carlos de Bariloche, Argentina

High-tech company with nanotechnology programs

Codelco

Santiago, Chile

World's largest copper producer with nano-copper research

CSIR South Africa Nano

Pretoria, South Africa

South Africa's national research council with nano center

NanoSA

Johannesburg, South Africa

Nanomaterial manufacturer and distributor in Africa

Masdar Institute

Abu Dhabi, United Arab Emirates

UAE research institute focusing on sustainable nano-technologies

KAUST Nano

Thuwal, Saudi Arabia

World-class nanotechnology research at KAUST

SABIC

Riyadh, Saudi Arabia

Global chemical company with nano-enabled materials

CEITEC Nano

Brno, Czech Republic

Central European nanotechnology center of excellence

OCSiAl Russia

Novosibirsk, Russia

Original OCSiAl CNT production facility

Colorobbia Nano

Florence, Italy

Nano-enabled ceramic glazes and coatings

HeiQ Materials

Bad Zurzach, Switzerland

Textile innovation using nanotechnology

Aqua-Pure Ventures

Minneapolis, United States

Nanofiltration membranes for water treatment

Nanostone Water

Oceanside, United States

Ceramic ultrafiltration membranes with nano-pores

Vesta Nanotechnologies

Cincinnati, United States

Nano-enhanced fertilizers for agriculture

Khosla Ventures Nano

Menlo Park, United States

Major VC investor in nanotechnology startups

Pangaea Ventures

Vancouver, Canada

VC fund focused on advanced materials and nanotechnology

Nanosys (acquired)

Milpitas, United States

Pioneer in quantum dot technology, now part of Shoei Chemical

NRC Nanotechnology Research Centre

Edmonton, Canada

Canada's national nanotechnology research center

CSIRO Manufacturing

Melbourne, Australia

Australia's national nanomaterials research

PPG Industries Nano

Pittsburgh, United States

Nanoparticle-enhanced coatings and paints

Arkema Nanomaterials

Colombes, France

Industrial-scale carbon nanotubes and nanomaterials

IMDEA Nanociencia

Madrid, Spain

Madrid's premier nanoscience research institute

NanoGune

San Sebastián, Spain

Nanoscience Cooperative Research Center

CNR NANO

Modena, Italy

Italian National Research Council nanoscience institute

Graphene Flagship

Gothenburg, Sweden

EU's largest research initiative on graphene

Particular GmbH

Hannover, Germany

Laser-ablated colloidal nanoparticles

BlueDot Photonics

Seattle, United States

Quantum dot solar luminescent concentrators

INL - International Iberian Nanotechnology Laboratory

Braga, Portugal

Iberian international nanotechnology research

Weinberg Nano

Tel Aviv, Israel

Nano-enhanced water filtration

Nanomaterials Technology

Singapore, Singapore

High-purity ceramic nanopowders

Solvay Nano

Brussels, Belgium

Advanced nanomaterials for multiple industries

Evonik Nano

Essen, Germany

Fumed silica and specialty nanomaterials

Wacker Chemie Nano

Munich, Germany

Pyrogenic silica and silicon-based nanomaterials

Cabot Corporation Nano

Boston, United States

Carbon black and aerogel nanomaterials

Denka Nano

Tokyo, Japan

Advanced carbon materials including CNTs

Graphene 3D Lab

Ronkonkoma, United States

Graphene-enhanced 3D printing materials

Sixth Element Materials

Changzhou, China

Large-scale graphene oxide production

Tsinghua-Berkeley Shenzhen Institute

Shenzhen, China

Joint Tsinghua-Berkeley nano and energy research

National Graphene Institute

Manchester, United Kingdom

Home of graphene research - Nobel Prize institution

LafargeHolcim Nano

Jona, Switzerland

Nano-optimized cement and aggregates

ApNano Materials

Ness Ziona, Israel

Inorganic fullerene-like nanoparticles

Nanobeak

Copenhagen, Denmark

Nano-based gas sensors for food freshness

NanoDetex

San Diego, United States

Nanowire-based explosives detection

NanoIntegris

Montreal, Canada

Sorted carbon nanotubes and graphene

Sol Voltaics

Lund, Sweden

Nanowire-based solar cells

Suzhou Institute of Nano-Tech

Suzhou, China

CAS nanotechnology research institute

CNSI - California NanoSystems Institute

Los Angeles, United States

UCLA/UCSB nanoscience research center

Instituto de Nanotecnologia Mexico

Mexico City, Mexico

UNAM nanotechnology research center

Centro Atómico Bariloche Nano

San Carlos de Bariloche, Argentina

Argentine nano and materials research

National Centre for Nanosciences Kenya

Nairobi, Kenya

University of Nairobi nano research

NanoLund

Lund, Sweden

Lund University nanoscience center

Chalmers Nano

Gothenburg, Sweden

Chalmers Microtechnology and Nanoscience

Landa Digital Printing

Rehovot, Israel

Nanographic printing technology

Sila Nanotechnologies

Alameda, United States

Silicon-dominant anode materials

Group14 Technologies

Woodinville, United States

Silicon-carbon composite anodes

Amprius Technologies

Fremont, United States

Silicon nanowire anodes

Cuberg

San Leandro, United States

Next-gen lithium-metal batteries

Sakti3

Ann Arbor, United States

Thin-film solid-state batteries

Ilika

Southampton, United Kingdom

Solid-state battery pioneer

ProLogium

Taoyuan, Taiwan

Solid-state lithium ceramic batteries

Blue Solutions

Quimper, France

All-solid-state lithium polymer

Northvolt

Stockholm, Sweden

European battery gigafactory

FREYR Battery

Mo i Rana, Norway

Clean battery manufacturing

Verkor

Grenoble, France

Low-carbon battery cells

Britishvolt

London, United Kingdom

UK battery gigafactory

ACC (Automotive Cells Company)

Nersac, France

European automotive battery JV

SVOLT Energy

Changzhou, China

Cobalt-free battery technology

Farasis Energy

Ganzhou, China

Pouch cell lithium-ion batteries

Gotion High-Tech

Hefei, China

LFP and high-energy batteries

EVE Energy

Huizhou, China

Lithium batteries and energy storage

Sunwoda Electronic

Shenzhen, China

Consumer electronics batteries

Lishen Battery

Tianjin, China

Cylindrical lithium-ion batteries

Great Power Energy

Guangzhou, China

Lithium battery manufacturer

Panasonic Energy

Osaka, Japan

Tesla's battery partner

Murata Manufacturing

Kyoto, Japan

Solid-state and micro batteries

Envision AESC

Kanagawa, Japan

Nissan Leaf battery supplier

Prime Planet Energy

Tokyo, Japan

Toyota-Panasonic battery JV

PPES (Primearth EV Energy)

Shizuoka, Japan

Toyota hybrid battery supplier

Enertech International

Cheonan, South Korea

Lithium-ion pouch cells

Kokam

Suwon, South Korea

High-power lithium polymer

L&F Company

Daegu, South Korea

Cathode active materials

Ecopro BM

Cheongju, South Korea

High-nickel cathode materials

Posco Chemical

Pohang, South Korea

Anode and cathode materials

Shanshan Technology

Shanghai, China

Battery materials leader

BTR New Material

Shenzhen, China

World's largest anode producer

Putailai

Shenzhen, China

Anode materials and coatings

Zichen Technology

Shenzhen, China

Battery separator films

Yunnan Energy New Material

Kunming, China

Battery separator leader

Shenzhen Senior Technology

Shenzhen, China

Battery separators and coatings

Toray Industries Battery

Tokyo, Japan

Battery separators and carbon fiber

Sumitomo Chemical Battery

Tokyo, Japan

Polyolefin separators

Asahi Kasei Separator

Tokyo, Japan

Hipore battery separators

W-Scope

Cheongju, South Korea

Wet-process lithium battery separators

SK IE Technology

Seoul, South Korea

LiBS separators and copper foils

Umicore Battery Materials

Brussels, Belgium

Cathode materials and recycling

BASF Battery Materials

Ludwigshafen, Germany

High-nickel cathode materials

Johnson Matthey Battery

London, United Kingdom

eLNO high-energy cathodes

Targray Battery Materials

Montreal, Canada

Battery materials distributor

Soulbrain

Seongnam, South Korea

Battery electrolytes

Enchem

Cheonan, South Korea

Electrolyte additives

Zhangjiagang Guotai Huarong

Zhangjiagang, China

Electrolyte solutions and salts

Capchem

Shenzhen, China

Electronic chemicals and electrolytes

Tinci Materials

Guangzhou, China

Battery electrolytes and LiFSI

Do-Fluoride Chemicals

Jiaozuo, China

LiPF6 and fluorine chemicals

Mitsubishi Chemical Battery

Tokyo, Japan

Electrolytes and anode materials

Ube Industries Battery

Ube, Japan

Electrolyte solvents and separators

Kureha Battery

Tokyo, Japan

PVDF binders for batteries

Solvay Battery Materials

Brussels, Belgium

Solef PVDF binders

Arkema Battery Materials

Colombes, France

Kynar PVDF for batteries

Nippon Shokubai Battery

Osaka, Japan

Ionic liquid electrolytes

Iljin Materials

Seoul, South Korea

Electrolytic copper foils

SKC

Suwon, South Korea

Copper foils and films

Solus Advanced Materials

Yongin, South Korea

Copper foils for batteries

Nuode Investment

Huizhou, China

Lithium battery copper foils

Targray

Kirkland, Canada

Battery materials distributor

NEI Corporation

Somerset, United States

Nanoscale battery materials

American Lithium Energy

Carlsbad, United States

Solid-state battery development

Leyden Jar Technologies

Eindhoven, Netherlands

PVD silicon anodes

Theion

Berlin, Germany

Crystal sulfur batteries

Innolith

Basel, Switzerland

Inorganic electrolyte batteries

High Power Exploration

Las Vegas, United States

Solid-state battery IP

Nano One

Burnaby, Canada

One-Pot cathode synthesis

Li-Metal

Markham, Canada

Lithium metal anodes

Livent Corporation

Philadelphia, United States

Lithium compounds for batteries

Albemarle Lithium

Charlotte, United States

World's largest lithium producer

SQM Lithium

Santiago, Chile

Chilean lithium producer

Ganfeng Lithium

Xinyu, China

Integrated lithium company

Tianqi Lithium

Chengdu, China

Lithium mining and processing

Pilbara Minerals

Perth, Australia

Hard rock lithium mining

Allkem

Brisbane, Australia

Lithium brine and hard rock

Lithium Americas

Vancouver, Canada

Lithium project developer

Piedmont Lithium

Belmont, United States

US domestic lithium

American Battery Technology

Reno, United States

Battery recycling and extraction

Redwood Materials

Carson City, United States

Closed-loop battery recycling

Ascend Elements

Westborough, United States

Engineered battery materials

Retriev Technologies

Lancaster, United States

Battery recycling pioneer

Brunp Recycling

Foshan, China

CATL's recycling arm

GEM Co

Shenzhen, China

Urban mining and recycling

Huayou Cobalt

Tongxiang, China

Cobalt and nickel materials

TDK Corporation

Tokyo, Japan

Electronic components including MLCCs, inductors, and sensors

Shin-Etsu Chemical

Tokyo, Japan

Silicon wafers, silicones, and specialty chemicals

SK Materials

Yeongju, South Korea

Specialty gases and materials for semiconductor manufacturing

Sumitomo Chemical

Tokyo, Japan

Photoresists, polarizing films, and OLED materials

Nikalyte

Canterbury, United Kingdom

PVD nanoparticle production systems for research and industry

Intrinsiq Materials

Farnborough, United Kingdom

Copper nanoparticle inks for printed electronics

Nexdot

Paris, France

Cadmium-free quantum dots for displays and lighting

NS Materials

Fukuoka, Japan

InP quantum dots for display and lighting applications

Shoei Chemical

Tokyo, Japan

Metal nanoparticle pastes and electronic materials

Heraeus Electronics

Hanau, Germany

Nano-silver sinter pastes and bonding materials for power electronics

Umicore Precious Metals Chemistry

Brussels, Belgium

Precious metal nanoparticle catalysts for chemical and pharma

Evonik Industries

Essen, Germany

Fumed silica nanoparticles and specialty chemicals

Cabot Corporation

Boston, United States

Carbon black, fumed silica, and specialty nanoparticles

Orion Engineered Carbons

Luxembourg, Luxembourg

Specialty carbon blacks for rubber, coatings, and batteries

Denka Company

Tokyo, Japan

Acetylene black and specialty nanomaterials for batteries

Lion Specialty Chemicals

Tokyo, Japan

CNT dispersions and specialty surfactants

Zeon Corporation

Tokyo, Japan

Single-wall carbon nanotubes and specialty polymers

SUSN Sinotech

Shenzhen, China

Carbon nanotube production and applications

Cabot Norit

Amersfoort, Netherlands

Activated carbon and purification materials

Kuraray Carbon

Osaka, Japan

Activated carbon for supercapacitors and water treatment

Timcal (Imerys)

Bodio, Switzerland

Graphite and carbon additives for batteries

The Sixth Element (Changzhou)

Changzhou, China

Graphene and graphene oxide production at scale

DIC Corporation

Tokyo, Japan

Pigments, polymers, and functional nanomaterials

Dow Silicones

Midland, United States

Silicones and thermal interface materials for electronics

Momentive Performance Materials

Waterford, United States

Silicones and quartz materials for high-performance applications

Wacker Chemie

Munich, Germany

Silicones, polysilicon, and specialty chemicals

Tosoh Corporation

Tokyo, Japan

Zirconia nanoparticles and specialty chemicals

NGK Insulators

Nagoya, Japan

Advanced ceramics for automotive and electronics

CeramTec

Plochingen, Germany

Advanced ceramics for medical and industrial applications

Sumitomo Electric Hardmetal

Itami, Japan

Cemented carbide cutting tools with nano-grain technology

Mitsubishi Materials

Tokyo, Japan

Cemented carbide and cutting tool materials

Mitsubishi Chemical

Tokyo, Japan

Carbon fiber, specialty plastics, and performance polymers

SGL Carbon

Wiesbaden, Germany

Carbon fiber, graphite materials, and composites

Hexcel Corporation

Stamford, United States

Carbon fiber and advanced composites for aerospace

Cytec (Solvay)

Brussels, Belgium

Advanced composites and carbon fiber prepregs

Zoltek (Toray)

St. Louis, United States

Industrial-grade carbon fiber

Hyosung Advanced Materials

Seoul, South Korea

Carbon fiber and advanced materials

Zhongfu Shenying Carbon Fiber

Lianyungang, China

Large-scale carbon fiber production in China

Jilin Chemical Fiber

Jilin, China

Carbon fiber and precursor production

Formosa Plastics

Taipei, Taiwan

Carbon fiber and petrochemical materials

Gurit Holding

Wattwil, Switzerland

Advanced composites for wind energy and marine

CNT Company

Incheon, South Korea

Carbon nanotube synthesis and products

Jeio Co.

Incheon, South Korea

Carbon nanotube production and composite applications

Suzhou Tanfeng Graphene Technology

Suzhou, China

CVD graphene and graphene oxide production

Cambridge Nanosystems

Cambridge, United Kingdom

Plasma-based graphene production

National Graphene Institute

Manchester, United Kingdom

Graphene research and commercialization center

Institute of Metal Research (CAS)

Shenyang, China

Advanced metal and nanomaterial research

Korea Institute of Science and Technology (KIST)

Seoul, South Korea

Korean national research institute with nano programs

AIST (National Institute of Advanced Industrial Science)

Tsukuba, Japan

Japanese national lab with extensive nano research

National Institute for Materials Science (NIMS)

Tsukuba, Japan

Japan's premier materials science research institute

RIKEN

Wako, Japan

Japanese research giant with nanoscience centers

Institute for Basic Science (IBS)

Daejeon, South Korea

Korean basic science institute with nano centers

A*STAR Institute of Materials Research

Singapore, Singapore

Singapore research institute for nanomaterials

ITRI (Industrial Technology Research Institute)

Hsinchu, Taiwan

Taiwan's largest applied research org with nano divisions

Catalan Institute of Nanoscience and Nanotechnology (ICN2)

Barcelona, Spain

Catalan research center for nanoscience

Max Planck Institute for Solid State Research

Stuttgart, Germany

Fundamental solid state and nanomaterials research

LG Energy Solution

Seoul, South Korea

Battery cells with nano-structured cathode materials

SK On

Seoul, South Korea

Next-gen EV batteries with nano-coating technology

CALB

Luoyang, China

Large-format lithium batteries for EVs and storage

Gotion High-Tech

Hefei, China

LFP and solid-state battery development

Murata Manufacturing

Nagaokakyo, Japan

MLCC capacitors with nano-scale dielectric layers

TDK Corporation

Tokyo, Japan

Electronic components with nano-materials technology

Nippon Electric Glass

Otsu, Japan

Display glass substrates with nano-surface treatment

Innolux Corporation

Miaoli, Taiwan

Large area displays with nano-structured films

TCL CSOT

Shenzhen, China

Display panels with Mini LED and QLED technology

Nanophotonica

Tel Aviv, Israel

Cadmium-free quantum dots for displays and lighting

Perovskite-Info

Herzeliya, Israel

Perovskite nanocrystal technology hub

Najing Technology

Hangzhou, China

Quantum dot materials and films for displays

Oxford PV

Oxford, United Kingdom

Perovskite-silicon tandem solar cells

Swift Solar

San Carlos, United States

Lightweight perovskite solar panels

Tandem PV

San Jose, United States

Perovskite-silicon tandem solar technology

Saule Technologies

Wroclaw, Poland

Inkjet-printed perovskite solar cells

Greatcell Energy

Queanbeyan, Australia

Perovskite and dye-sensitized solar cell technology

Energy Materials Corporation

Rochester, United States

Perovskite solar manufacturing and commercialization

Wonder Solar

Hangzhou, China

Large-area perovskite solar module manufacturing

UtmoLight

Wuxi, China

Flexible perovskite solar cells for IoT

CubicPV

Burlington, United States

Tandem silicon-perovskite solar technology

Caelux

Pasadena, United States

Perovskite solar technology from Caltech spinoff

SunDensity

Rochester, United States

Nano-scale spectral conversion to boost solar efficiency

Nexeon Limited

Abingdon, United Kingdom

Silicon anode materials for lithium-ion batteries

OneD Battery Sciences

Palo Alto, United States

SINANODE silicon nanowire technology for batteries

Advano

New Orleans, United States

Silicon nanoparticle anode materials

Toyota Battery Research

Toyota City, Japan

Solid-state battery development for EVs

Nissan Battery Labs

Yokohama, Japan

All-solid-state battery development

Honda Battery Division

Tochigi, Japan

Fluoride-ion and solid-state battery research

Addionics

Tel Aviv, Israel

3D structured electrode architecture for batteries

Mitra Chem

Mountain View, United States

AI-accelerated battery cathode development

Coreshell Technologies

San Leandro, United States

Nano-scale surface coating for battery cathodes

Nichia Corporation

Anan, Japan

Blue LED inventor with nano-scale phosphors

MLS Co.

Zhongshan, China

LED packaging and lighting solutions

Toyoda Gosei

Kiyosu, Japan

Automotive LEDs and GaN power devices

ON Semiconductor

Phoenix, United States

Image sensors and SiC power semiconductors

Particular Technology

Hannover, Germany

Laser-generated nanoparticles for industrial applications

Attomol

Bronkow, Germany

Nanoparticle-based diagnostic systems

Nanyang Technological University

Singapore, Singapore

Leading research university with strong nanotechnology programs

National University of Singapore

Singapore, Singapore

Comprehensive nanotechnology research programs

Tata Steel Advanced Materials

Jamshedpur, India

Advanced nanomaterials for steel and construction

Indian Institute of Technology Bombay

Mumbai, India

Centre for Research in Nanotechnology and Science

Tata Chemicals Innovation Centre

Pune, India

R&D in nanomaterials and energy storage

Nanum Nanotecnologia

Ribeirão Preto, Brazil

Nanomaterials for agricultural applications

Universidad de los Andes Nanotechnology

Bogotá, Colombia

Leading Colombian nanotechnology research

UNAM Centro de Nanociencias

Mexico City, Mexico

Center for Nanosciences and Nanotechnology

Nano Tech Argentina

Buenos Aires, Argentina

Nanomaterials and coatings for industrial applications

INTI Micro y Nanotecnología

Buenos Aires, Argentina

National Institute of Industrial Technology nanotechnology division

Cedenna Chile

Santiago, Chile

Center for the Development of Nanoscience and Nanotechnology

NanoIntegris

Montreal, Canada

Semiconducting and metallic carbon nanotube separation

Raymor Industries

Boisbriand, Canada

Plasma synthesis of carbon nanotubes and graphene

University of Waterloo Nanotechnology

Waterloo, Canada

Nanotechnology engineering program and research

Applied Graphene Materials

Redcar, United Kingdom

Graphene nanoplatelets for coatings and composites

Graphene Flagship

Gothenburg, Sweden

EU's largest research initiative for graphene

HQ Graphene

Groningen, Netherlands

High-quality 2D materials and crystals

Ningbo Morsh Technology

Ningbo, China

Graphene oxide and reduced graphene oxide production

General Graphene Corp

Knoxville, United States

Large-area CVD graphene production

BGT Materials

Manchester, United Kingdom

CVD graphene and 2D materials production

Scontel

Moscow, Russia

Superconducting single-photon counting modules

Quantum Opus

Novi, United States

Superconducting nanowire single-photon detectors

Imerys

Paris, France

Specialty minerals including graphite and carbon additives

Solvay

Brussels, Belgium

Advanced materials and specialty chemicals

Umicore

Brussels, Belgium

Materials technology and recycling for clean mobility

Johnson Matthey

London, United Kingdom

Specialty chemicals, catalysts, and precious metals

Clariant

Muttenz, Switzerland

Specialty chemicals for various industries

DSM-Firmenich

Kaiseraugst, Switzerland

Nutrition, health, and sustainable living solutions

Toray Industries

Tokyo, Japan

Advanced materials including carbon fiber and films

Asahi Kasei

Tokyo, Japan

Diversified materials and healthcare company

Kuraray

Tokyo, Japan

Specialty chemicals and functional materials

DIC Corporation

Tokyo, Japan

Printing inks, organic pigments, and polymers

Hitachi Chemical

Tokyo, Japan

Electronic materials and energy storage (merged with Showa Denko)

SK Chemicals

Seongnam, South Korea

Eco-friendly materials and pharmaceuticals

Kumho Petrochemical

Seoul, South Korea

Synthetic rubber and styrene-based materials

Lotte Chemical

Seoul, South Korea

Petrochemicals and advanced materials

OCI Holdings

Seoul, South Korea

Polysilicon and carbon materials

Echem

Cheonan, South Korea

CMP slurries and semiconductor chemicals

Chang Chun Group

Taipei, Taiwan

Electronic chemicals and petrochemicals

Eternal Materials

Kaohsiung, Taiwan

Photoresists, solder mask, and specialty coatings

Sinopec

Beijing, China

Integrated energy and chemical company

PetroChina

Beijing, China

Oil, gas, and petrochemical products

Wanhua Chemical

Yantai, China

World's largest MDI producer

Jiangsu Cnano Technology

Zhenjiang, China

Carbon nanotube conductive additives for batteries

Beijing Easpring Material

Beijing, China

Cathode materials for lithium-ion batteries

Hunan Changyuan Lico

Changsha, China

Ternary cathode materials for batteries

Ronbay Technology

Ningde, China

High-nickel cathode materials and precursors

Shanshan Technology

Shanghai, China

Anode and cathode materials for batteries

BTR New Material

Shenzhen, China

Anode materials including silicon-carbon composites

Tianjin Zhonghuan Semiconductor

Tianjin, China

Silicon wafers for semiconductors and solar

Ferrotec

Tokyo, Japan

Vacuum components and advanced materials

Littelfuse

Chicago, United States

Circuit protection and power semiconductors

Ribes Tech

Rome, Italy

Flexible organic photovoltaics

Ascent Solar Technologies

Thornton, United States

Flexible CIGS solar technology

MiaSolé Hi-Tech

Santa Clara, United States

Flexible CIGS solar panels

Flisom

Niederhasli, Switzerland

Roll-to-roll flexible CIGS solar

NICE Solar Energy

Mianyang, China

Flexible CIGS solar production

AVANCIS

Torgau, Germany

CIGS thin-film solar modules

Nanophase Technologies

Romeoville, United States

Metal oxide nanomaterials

US Research Nanomaterials

Houston, United States

Nanomaterials manufacturer and distributor

SkySpring Nanomaterials

Houston, United States

Nanomaterials supplier and manufacturer

Daicel Corporation

Osaka, Japan

Cellulose nanofibers and specialty chemicals

Oji Holdings

Tokyo, Japan

Paper and cellulose nanofiber production

Blue Goose Biorefineries

Saskatoon, Canada

Nanocellulose from agricultural residue

RISE INNVENTIA

Stockholm, Sweden

Research institute for cellulose nanomaterials

Stryker

Kalamazoo, United States

Orthopedic implants with nanostructured surfaces for improved osseointegration

Smith+Nephew

Watford, United Kingdom

Medical devices with nanocrystalline silver wound care and orthopedic implants

Cerion Nanomaterials

Rochester, United States

Cerium oxide and other metal oxide nanoparticles for industrial and biomedical uses

Ocean NanoTech

San Diego, United States

Quantum dots, iron oxide, and magnetic nanoparticles for biomedical research

Alexium International

Perth, Australia

Advanced textile chemicals including flame retardant and phase-change materials

Noble Biomaterials

Scranton, United States

Silver-based antimicrobial technologies for textiles and medical applications

Solvay Composite Materials

Brussels, Belgium

Advanced composite materials with nano-enhanced resins for aerospace and automotive

Mitsubishi Chemical Carbon Fiber

Tokyo, Japan

Pitch-based and PAN-based carbon fibers with nanotechnology-enhanced properties

Northrop Grumman

Falls Church, United States

Aerospace and defense company with nanotechnology in advanced materials and sensors

Raytheon Technologies

Arlington, United States

Aerospace and defense with nano-enhanced sensors, thermal management, and coatings

General Dynamics

Reston, United States

Defense contractor with advanced composites and nano-enhanced armor materials

BAE Systems

Farnborough, United Kingdom

Defense and aerospace with nanotechnology in stealth and electronic warfare systems

Airbus Defence and Space

Munich, Germany

Aerospace and defense with advanced nano-composites and satellite systems

Safran

Paris, France

Aerospace propulsion and equipment with nano-enhanced ceramic matrix composites

GE Aerospace

Cincinnati, United States

Jet engines with ceramic matrix composites and nano-enhanced thermal coatings

Integran Technologies

Mississauga, Canada

Nanocrystalline metal coatings for aerospace and industrial applications

IDE Technologies

Kadima, Israel

Desalination technology company with advanced membrane systems

Dupont Water Solutions

Wilmington, United States

Water treatment membranes including nano-enhanced reverse osmosis systems

Toray Membrane

Tokyo, Japan

Membrane technology for water treatment including RO and UF systems

Koch Separation Solutions

Wilmington, United States

Membrane filtration systems including nano-enhanced hollow fiber membranes

Pall Corporation

Port Washington, United States

Filtration and separation technology with nano-scale membrane systems

Hydranautics (Nitto)

Oceanside, United States

Reverse osmosis and nanofiltration membranes for desalination

Evoqua Water Technologies

Pittsburgh, United States

Water treatment solutions including membrane filtration systems

Xylem

Washington DC, United States

Water technology company with membrane filtration and treatment solutions

Veolia Water Technologies

Paris, France

Global water treatment with membrane bioreactor and nanofiltration systems

SUEZ Water Technologies

Paris, France

Water treatment technologies including advanced membrane systems

Pentair

London, United Kingdom

Water solutions with membrane filtration for residential and commercial markets

A.O. Smith

Milwaukee, United States

Water technology with reverse osmosis and filtration systems

3M Purification

Saint Paul, United States

Filtration and purification products including nano-enhanced membranes

Parker Hannifin Filtration

Cleveland, United States

Filtration systems including nanofibrous and membrane technologies

Donaldson Company

Bloomington, United States

Filtration company with nanofiber technology for air and liquid filtration

Clarcor (now Parker)

Franklin, United States

Nanofiber filtration technology for industrial and commercial applications

Hollingsworth & Vose

East Walpole, United States

Specialty filtration media including nanofiber and advanced nonwovens

Ahlstrom-Munksjö

Helsinki, Finland

Fiber-based materials with nanofiber filtration media and specialty papers

Johns Manville

Denver, United States

Building and specialty products with nano-enhanced filtration media

Fibrerio Technology

Gothenburg, Sweden

Electrospinning equipment for nanofiber production and R&D

eSpin Technologies

Chattanooga, United States

Electrospun nanofiber materials for filtration and technical applications

FibeRio Technology

McAllen, United States

Forcespinning technology for high-throughput nanofiber production

NaBond Technologies

Shenzhen, China

Electrospinning equipment and nanofiber materials manufacturer

Qatar Environment and Energy Research Institute

Doha, Qatar

Research institute for sustainable energy and water technologies using nanomaterials

Agency for Science, Technology and Research

Singapore, Singapore

Singapore research agency with multiple nanotechnology-focused institutes

Institute of Materials Research and Engineering

Singapore, Singapore

A*STAR institute specializing in materials science and nanotechnology

Vietnam National University Nanotechnology

Hanoi, Vietnam

Leading Vietnamese university with nanotechnology research programs

Indonesian Institute of Sciences Nanotechnology

Bandung, Indonesia

Indonesian national research agency with nanotechnology division

Council of Scientific and Industrial Research

New Delhi, India

Indian network of research labs with extensive nanotechnology programs

National Chemical Laboratory

Pune, India

CSIR laboratory specializing in catalysis and nanotechnology research

Tata Institute of Fundamental Research

Mumbai, India

Fundamental research institute with condensed matter and nanophysics programs

Jawaharlal Nehru Centre for Advanced Scientific Research

Bangalore, India

Multidisciplinary research center with strong nanomaterials programs

S.N. Bose National Centre for Basic Sciences

Kolkata, India

Physics research center with nanomaterials and quantum materials focus

Centre for Nano and Soft Matter Sciences

Bangalore, India

Research center for nanomaterials, liquid crystals and soft matter

Council for Scientific and Industrial Research South Africa

Pretoria, South Africa

South African research council with materials science and nanotech programs

University of Cape Town Nano

Cape Town, South Africa

Top African university with nanotechnology and catalysis research

University of Witwatersrand Nano

Johannesburg, South Africa

Research university with materials science and nanotechnology programs

Egypt Nanotechnology Center

Cairo, Egypt

National nanotechnology center for energy and water applications

Zewail City of Science and Technology

Giza, Egypt

Science city with nanoscience and nanotechnology research centers

Sharif University of Technology Nano

Tehran, Iran

Top Iranian technical university with nanotechnology research programs

University of Tehran Nano

Tehran, Iran

Major Iranian university with nanomaterials and chemistry research

Centro de Nanociencias y Nanotecnología UNAM

Ensenada, Mexico

UNAM research center for nanoscience and nanotechnology

Instituto Potosino de Investigación Científica y Tecnológica

San Luis Potosí, Mexico

Mexican research institute with advanced materials and nanotechnology

Centro de Investigación en Materiales Avanzados

Chihuahua, Mexico

Mexican center for advanced materials including nanotechnology

Centro Brasileiro de Pesquisas Físicas

Rio de Janeiro, Brazil

Brazilian physics research center with condensed matter and nanophysics

Fundación Argentina de Nanotecnología

Buenos Aires, Argentina

Argentine foundation promoting nanotechnology development

Centro Atómico Bariloche

San Carlos de Bariloche, Argentina

Argentine atomic research center with nanomaterials programs

Centro de Excelencia en Productos y Procesos de Córdoba

Córdoba, Argentina

Argentine R&D center with nanotechnology and materials focus

Universidad de Concepción Nano

Concepción, Chile

Chilean university with strong catalysis and nanomaterials programs

Colombia Nanotechnology Center

Bogotá, Colombia

Colombian center for nanotechnology research and development

Technion - Israel Institute of Technology

Haifa, Israel

Israel's leading technical university with Russell Berrie Nanotechnology Institute

Hebrew University of Jerusalem Nano

Jerusalem, Israel

Major Israeli university with Center for Nanoscience and Nanotechnology

Tel Aviv University Nano

Tel Aviv, Israel

Major university with Center for Nanoscience and Nanotechnology

Bar-Ilan University Institute of Nanotechnology

Ramat Gan, Israel

University institute specializing in nanomedicine and nano-energy

National University of Singapore Nano

Singapore, Singapore

Top Asian university with comprehensive nanotechnology programs

Hong Kong University of Science and Technology

Hong Kong, Hong Kong

Research university with Institute for Advanced Study nanomaterials focus

Chinese University of Hong Kong

Hong Kong, Hong Kong

Major university with Institute of NanoMaterials and NanoTechnology

City University of Hong Kong

Hong Kong, Hong Kong

University with Centre for Functional Photonics and nanomaterials research

National Taiwan University Nano

Taipei, Taiwan

Taiwan's top university with Center for Condensed Matter Sciences

National Tsing Hua University Nano

Hsinchu, Taiwan

Top Taiwan university with Center for Nanotechnology

National Chiao Tung University

Hsinchu, Taiwan

Taiwan electronics university with nano-device research

Academia Sinica Nano

Taipei, Taiwan

Taiwan's national academy with Institute of Atomic and Molecular Sciences

Industrial Technology Research Institute Nano

Hsinchu, Taiwan

Taiwan's largest applied research institute with nanotech programs

Tsinghua University Nano

Beijing, China

China's top university with National Center for Nanoscience and Technology

Peking University Nano

Beijing, China

Major Chinese university with Center for Nanoscale Science and Technology

Fudan University Nano

Shanghai, China

Top Shanghai university with nanotechnology research centers

Shanghai Jiao Tong University Nano

Shanghai, China

Major Chinese university with nanomaterials and energy research

Zhejiang University Nano

Hangzhou, China

Top Chinese university with State Key Lab of Silicon Materials

University of Science and Technology of China

Hefei, China

Elite Chinese university with quantum and nanoscience research

Nanjing University Nano

Nanjing, China

Major Chinese university with National Lab of Solid State Microstructures

Kyoto University Nano

Kyoto, Japan

Leading Japanese university with iCeMS nanobio research

Tohoku University Nano

Sendai, Japan

Japanese university with WPI-AIMR advanced materials institute

Tokyo Institute of Technology

Tokyo, Japan

Japan's top technical university with nanotechnology research

Seoul National University Nano

Seoul, South Korea

Korea's top university with Institute for Basic Science nanotech

KAIST

Daejeon, South Korea

Korea's top technical university with nanofab and research

POSTECH

Pohang, South Korea

Private Korean university with Pohang Accelerator and nano research

Sungkyunkwan University Nano

Suwon, South Korea

Samsung-affiliated university with advanced graphene research

ETH Zurich Nano

Zurich, Switzerland

World-class technical university with FIRST lab and nano research

EPFL Nano

Lausanne, Switzerland

Swiss technical university with Center for MicroNanoTechnology

Max Planck Society Nanoscience

Munich, Germany

German research organization with multiple nano-focused institutes

Fraunhofer Society Nano

Munich, Germany

German applied research network with nanotechnology institutes

Helmholtz Association Nano

Berlin, Germany

German research centers with energy and materials nanotech

Technical University of Munich Nano

Munich, Germany

Top German technical university with Walter Schottky Institute

RWTH Aachen Nano

Aachen, Germany

Major German technical university with AMO GmbH nanoelectronics

University of Oxford Nano

Oxford, United Kingdom

Ancient university with cutting-edge nanoscience research

University of Manchester Nano

Manchester, United Kingdom

Home of National Graphene Institute and Nobel graphene research

Quantum Materials Corp

San Marcos, United States

Tetrapod quantum dots for solar cells and displays

nanoComposix Europe

Prague, Czech Republic

European distribution of precision nanoparticles

Nanostructured & Amorphous Materials

Katy, United States

Wide range of nanomaterials including CNTs, graphene, and metal oxides

US Research Nanomaterials

Houston, United States

Supplier of nanomaterials including graphene and CNTs

Hongwu International Group

Guangzhou, China

Large-scale nanomaterials manufacturer in China

Nanografi

Ankara, Turkey

Turkish nanomaterials company specializing in graphene and CNTs

NanoAmor China

Shenzhen, China

Chinese nanomaterials manufacturing and distribution

Graftech International

Brooklyn Heights, United States

Graphite electrodes and advanced carbon materials

Nanophase Technologies

Romeoville, United States

Engineered nanomaterials for personal care and industrial uses

Oxis Energy

Abingdon, United Kingdom

Lithium-sulfur battery technology for high energy density

Sion Power

Tucson, United States

Lithium-metal and lithium-sulfur battery development

PolyPlus Battery Company

Berkeley, United States

Protected lithium electrodes and lithium-air batteries

NantEnergy

Scottsdale, United States

Rechargeable zinc-air batteries for grid storage

EOS Energy Enterprises

Edison, United States

Zinc-based battery systems for utility-scale storage

Via Separations

Watertown, United States

Graphene oxide membranes for industrial separations

Innosep

Hefei, China

Chinese ceramic membrane manufacturer for water treatment

NanoMaterials Technology

Singapore, Singapore

Nano precipitated calcium carbonate for plastics and rubber

Evonik Health Care

Essen, Germany

Drug delivery polymers and lipid nanoparticle components

Nanocomp Technologies

Merrimack, United States

Industrial-scale carbon nanotube sheets and yarns

Zeon Corporation

Tokyo, Japan

Japanese chemical company producing super-growth CNTs

SUSN Sinotech New Materials

Chengdu, China

Large-scale carbon nanotube manufacturer in China

Meijo Nano Carbon

Nagoya, Japan

High-purity carbon nanotube production in Japan

Thomas Swan

Consett, United Kingdom

UK chemical company producing CNTs and graphene

Carbon Solutions

Riverside, United States

Arc-discharge carbon nanotubes and fullerenes

NanoLab

Waltham, United States

Carbon nanotubes and nanowires for research

Southwest Nanotechnologies

Norman, United States

Specialty single-wall CNTs using CoMoCAT process

Nanothinx

Patras, Greece

Greek carbon nanotube producer

Aspen Aerogels

Northborough, United States

Aerogel insulation for energy and industrial markets

Aerogel Technologies

Boston, United States

Silica aerogel materials for thermal insulation

BASF Aerogel

Ludwigshafen, Germany

BASF aerogel insulation materials for buildings

Airgel Australia

Melbourne, Australia

Australian aerogel insulation distributor and applications

SES Research

Houston, United States

Fullerene production and carbon nanomaterials research

Frontier Carbon Corporation

Kitakyushu, Japan

Mitsubishi subsidiary for industrial fullerene production

BuckyUSA

Houston, United States

Fullerene and carbon nanomaterial supplier

NanoIntegris (Raymor)

Boisbriand, Canada

Sorted semiconducting and metallic carbon nanotubes

Nano-Glo

San Jose, United States

Quantum dot phosphors for lighting and displays

Hexcel Corporation

Stamford, United States

Advanced composites technology leader for aerospace and industrial applications including carbon fiber reinforcements

Solvay Carbon Fibers

Brussels, Belgium

Advanced materials and specialty chemicals including carbon fiber composites for aerospace and automotive

Dow Inc.

Midland, United States

Global materials science company with advanced polymers, silicones and specialty chemicals

DuPont de Nemours

Wilmington, United States

Innovation leader in specialty materials including Kevlar, Nomex, and electronics materials

Celanese Corporation

Irving, United States

Global chemical and specialty materials company with engineered polymers for automotive and electronics

Morgan Advanced Materials

Windsor, United Kingdom

Engineered materials including technical ceramics, carbon and thermal management solutions

3M Advanced Materials

Saint Paul, United States

Diversified technology company with advanced ceramics, nanofibers, abrasives and specialty materials

Corning Incorporated

Corning, United States

Specialty glass and ceramics leader for display, optical communications and life sciences

Heraeus

Hanau, Germany

Technology group with precious metals, specialty materials and sensors for electronics and healthcare

Albemarle Corporation

Charlotte, United States

Global specialty chemicals leader in lithium for batteries, bromine and catalysts

Livent Corporation

Philadelphia, United States

Pure-play lithium producer with lithium hydroxide and carbonate for EV batteries

Sociedad Química y Minera (SQM)

Santiago, Chile

Major lithium producer from Chile's Atacama with lithium carbonate and hydroxide for batteries

BASF Battery Materials

Ludwigshafen, Germany

Chemical giant with cathode active materials, electrolytes and battery recycling for EVs

Johnson Matthey Battery Materials

London, United Kingdom

Sustainable technologies company with battery materials, catalysts and hydrogen technologies

Sumitomo Metal Mining

Tokyo, Japan

Non-ferrous metals company with nickel-based battery materials for EVs and high-purity copper

L&F Co.

Daegu, South Korea

Cathode materials manufacturer supplying LG Energy Solution with NCM and NCMA materials

Toda Kogyo

Hiroshima, Japan

Advanced materials company with cathode materials, magnetic powders and oxide materials

Nexeon Limited

Abingdon, United Kingdom

Silicon anode materials for lithium-ion batteries with higher capacity than graphite

Furukawa Electric

Tokyo, Japan

Electric wire and cable company with copper foil for lithium-ion batteries and power cables

SK Nexilis

Jeongeup, South Korea

Copper foil manufacturer for EV batteries producing ultra-thin foils for higher energy density

Showa Denko Materials

Tokyo, Japan

Advanced materials for semiconductors including photoresists, CMP slurries and battery anode materials

Zoltek Companies (Toray)

Bridgeton, United States

Commercial carbon fiber manufacturer (Toray subsidiary) for wind, automotive and industrial applications

Formosa Plastics

Taipei, Taiwan

Major petrochemical company with carbon fiber production for aerospace and industrial applications

Hyosung Advanced Materials

Seoul, South Korea

Advanced materials company with TANSOME carbon fiber and aramid fiber for automotive and aerospace

Jilin Carbon

Jilin City, China

Chinese carbon fiber and graphite electrode manufacturer for aerospace and electric arc furnaces

Nippon Graphite Fiber

Osaka, Japan

Pitch-based carbon fiber specialist with high thermal conductivity products for space and electronics

Kureha Corporation

Tokyo, Japan

Specialty chemicals with PVDF binder for lithium batteries and pitch-based carbon fiber

Spirit AeroSystems

Wichita, United States

Largest independent aerostructures manufacturer with composite fuselages and nacelles

Albany International

Rochester, United States

Advanced composites for aerospace engines including 3D woven fan blades and containment cases

Teledyne Technologies

Thousand Oaks, United States

Defense and aerospace company with advanced composites, electronics and instrumentation

Viavi Solutions

Scottsdale, United States

Optical test and measurement, network test and optical security products

Laser Components

Olching, Germany

Laser and optoelectronic components including photodiodes, laser optics and custom solutions

Rockley Photonics

Oxford, United Kingdom

Silicon photonics platform for health monitoring with spectroscopy-based biomarker sensing

Valeo Scala

Paris, France

Automotive supplier with SCALA lidar - first production automotive lidar for Audi Level 3

Ultimaker (UltiMaker)

Utrecht, Netherlands

Professional desktop 3D printing with open material system (merged with MakerBot)

AnyCubic

Shenzhen, China

Consumer resin and FDM 3D printers with popular Photon and Kobra series

Elegoo

Shenzhen, China

Consumer resin and FDM 3D printers including popular Mars and Neptune series

i.materialise

Leuven, Belgium

Online 3D printing service from Materialise for consumers and professionals

Skydio

San Mateo, United States

American drone manufacturer with AI-powered autonomous flight technology

Roborock

Beijing, China

Premium robot vacuum manufacturer with advanced navigation technology

Seegrid

Pittsburgh, United States

Vision-guided autonomous mobile robots for material handling

Plug Power

Latham, United States

End-to-end green hydrogen solutions including fuel cells, electrolyzers, and infrastructure

Ballard Power Systems

Burnaby, Canada

Pioneer in PEM fuel cell technology for heavy-duty transportation and stationary power

Bloom Energy

San Jose, United States

Solid oxide fuel cell technology for on-site power generation

Cummins Hydrogenics

Columbus, United States

Hydrogen fuel cells and electrolyzers from engine manufacturer Cummins

Linde Hydrogen

Dublin, Ireland

Global industrial gas company with comprehensive hydrogen solutions

Advent Technologies

Boston, United States

High-temperature PEM fuel cells and advanced membrane electrode assemblies

Proton Power Systems

Puchheim, Germany

PEM fuel cells for heavy-duty applications including buses, trucks, and ships

Ceres Power

Horsham, United Kingdom

Steel Cell solid oxide technology for fuel cells and electrolyzers

Loop Energy

Burnaby, Canada

PEM fuel cells for medium and heavy-duty commercial vehicles

Nuvera Fuel Cells

Billerica, United States

Fuel cell engines for material handling and heavy-duty applications

Plastic Omnium New Energies

Levallois-Perret, France

Automotive supplier with hydrogen storage tanks and fuel cell systems

FirstElement Fuel

Irvine, United States

Largest hydrogen refueling network operator in California

HydrogenOne Capital

London, United Kingdom

Investment fund focused on clean hydrogen across the value chain

John Cockerill Hydrogen

Seraing, Belgium

Alkaline and PEM electrolyzer manufacturer with industrial heritage

Rocket Lab

Long Beach, United States

Small launch provider with carbon composite rockets and spacecraft

Northrop Grumman Space

Dulles, United States

Major aerospace and defense company with space systems division

Axiom Space

Houston, United States

First commercial space station company with ISS modules

BlackSky

Herndon, United States

Geospatial intelligence company with satellite constellation and AI

ICEYE

Espoo, Finland

SAR satellite company with world's largest commercial radar constellation

Umbra

Santa Barbara, United States

High-resolution SAR satellite company with open data platform

Redwire Space

Jacksonville, United States

Space infrastructure company providing components and manufacturing

Varda Space Industries

El Segundo, United States

Manufacturing pharmaceuticals and advanced materials in microgravity

Space Forge

Cardiff, United Kingdom

UK company manufacturing advanced materials in space

Accion Systems

Boston, United States

Electric propulsion company for small satellites using ion engines

Skyrora

Edinburgh, United Kingdom

Scottish rocket company developing launch vehicles

Zymergen

Emeryville, United States

Biofacturing company engineering microbes for advanced materials

Dow Advanced Materials

Midland, United States

Global materials science company providing advanced polymer and chemical solutions

Evonik Performance Materials

Essen, Germany

Specialty chemicals company providing high-performance materials and nano solutions

Celanese Engineered Materials

Irving, United States

Global chemical and specialty materials company producing engineered materials

Momentive Performance Materials

Waterford, United States

Global leader in silicones and advanced materials for diverse industries

Mitsubishi Chemical Advanced Materials

Tokyo, Japan

Global advanced materials company providing high-performance plastics and composites

Toray Advanced Materials

Tokyo, Japan

Advanced materials company leading in carbon fiber and high-performance materials

Teijin Advanced Materials

Osaka, Japan

High-performance materials company specializing in aramid and carbon fiber

HB Fuller

St. Paul, United States

Global adhesives company providing bonding solutions across industries

Avery Dennison

Mentor, United States

Global materials science company providing labeling and functional materials

Kyocera Advanced Materials

Kyoto, Japan

Technology company specializing in fine ceramics and electronic components

Sociedad Quimica y Minera

Santiago, Chile

Global company producing lithium, specialty fertilizers, and industrial chemicals

Lynas Rare Earths

Sydney, Australia

Largest rare earth mining and processing company outside China

Neo Performance Materials

Toronto, Canada

Advanced industrial materials company producing rare earth and specialty materials

Novonix

Brisbane, Australia

Battery technology company developing synthetic graphite and battery testing equipment

SES AI Corporation

Boston, United States

Developer and manufacturer of high-performance lithium-metal batteries

Ilika Technologies

Southampton, United Kingdom

Pioneer in solid-state battery technology for industrial IoT and medical devices

Toyota Solid-State Battery

Toyota City, Japan

Automotive giant developing next-generation solid-state batteries for EVs

BYD Battery

Shenzhen, China

Major battery and EV manufacturer with blade battery technology

Stryker Corporation

Kalamazoo, United States

Medical technology company focused on orthopedics, surgical, and neurotechnology

Fresenius Medical Care

Bad Homburg, Germany

World's leading provider of products and services for dialysis patients

Fisher & Paykel Healthcare

Auckland, New Zealand

Medical device company developing respiratory care and acute care products

Globus Medical

Audubon, United States

Medical device company developing musculoskeletal solutions and robotics

Integra LifeSciences

Princeton, United States

Global medical technology company focused on regenerative technologies

Integer Holdings

Frisco, United States

Medical device outsource manufacturer providing batteries and components

Xylem Inc

Washington, United States

Global water technology company solving critical water and infrastructure challenges

Evoqua Water Technologies

Pittsburgh, United States

Water treatment company providing solutions for industrial and municipal water

SUEZ Water Technologies

Paris, France

Environmental services company providing water and waste management

Donaldson Company

Bloomington, United States

Global filtration company providing industrial and engine filtration

Camfil

Stockholm, Sweden

Global leader in air filtration solutions for clean air

Novamont

Novara, Italy

Leading company in bioplastics and biochemicals from renewable sources

Danimer Scientific

Bainbridge, United States

Biopolymer company developing biodegradable PHA-based materials

Carbon Clean

London, United Kingdom

Carbon capture technology company for industrial decarbonization

Climeworks

Zurich, Switzerland

Direct air capture company removing CO2 from atmosphere

Global Thermostat

New York, United States

Carbon capture company using low-cost heat to capture CO2

Svante

Burnaby, Canada

Carbon capture company for industrial point-source emissions

Charm Industrial

San Francisco, United States

Carbon removal company converting biomass to bio-oil for permanent storage

Renewcell

Stockholm, Sweden

Textile recycling company creating dissolving pulp from cotton waste

Circ

Danville, United States

Textile recycling company using hydrothermal processing

Northrop Grumman Environmental

Falls Church, United States

Aerospace company with environmental remediation and sustainability programs

Biochar Now

Berthoud, United States

Biochar production company for carbon sequestration and soil health

Pacific Biochar

Santa Rosa, United States

Biochar company providing soil amendments and carbon removal

Cohere

Toronto, Canada

Enterprise AI company providing NLP models for business applications

ElevenLabs

New York, United States

Voice AI company developing realistic text-to-speech and voice cloning technology

Weaviate

Amsterdam, Netherlands

Open-source vector database for AI-native applications

Qdrant

Berlin, Germany

Vector search engine and database for AI applications

Infinera Corporation

San Jose, United States

Optical networking company with photonic integrated circuit technology

ADVA Optical

Munich, Germany

Adtran company (formerly ADVA) providing optical networking and encryption solutions

Corning Optical

Corning, United States

Corning optical communications division providing fiber optic cables and connectivity

Prysmian Group

Milan, Italy

World's largest cable manufacturer providing fiber optic and power cables

OFS Fitel

Norcross, United States

Furukawa company providing specialty optical fiber and fiber optic cable

Excelitas Technologies

Waltham, United States

Photonics company providing detection, illumination, and optical technology solutions

Continuum Lasers

San Jose, United States

Amplitude company providing Nd:YAG and tunable lasers for scientific applications

Avantes

Apeldoorn, Netherlands

Spectrometer and fiber optic sensing company for analytical applications

Renishaw Spectroscopy

Wotton-under-Edge, United Kingdom

Renishaw spectroscopy division providing Raman microscopy and analysis systems

PerkinElmer Optics

Waltham, United States

Revvity (formerly PerkinElmer) providing optical spectroscopy and imaging systems

Teledyne FLIR

Wilsonville, United States

Teledyne company providing thermal imaging cameras and sensing solutions

Leonardo DRS

Arlington, United States

Defense electronics company providing IR sensors and electro-optical systems

L3Harris EO/IR

Melbourne, United States

L3Harris electro-optical and infrared systems for defense and space applications

Sofradir

Grenoble, France

Lynred (formerly Sofradir) - European leader in infrared detector manufacturing

Teledyne Imaging

Thousand Oaks, United States

Teledyne imaging division providing digital imaging sensors for space and science

ON Semiconductor Imaging

Phoenix, United States

onsemi imaging solutions for automotive, industrial, and consumer applications

Raytheon Technologies

Arlington, United States

Aerospace and defense company providing advanced sensors, missiles, and propulsion systems

Thales Group

Paris, France

French multinational providing aerospace, defense, and security systems with advanced materials

Leonardo S.p.A.

Rome, Italy

Italian aerospace and defense company providing helicopters, aircraft, and electronic systems

Kratos Defense

San Diego, United States

Defense technology company providing drones, hypersonic systems, and satellites

Joby Aviation

Santa Cruz, United States

Electric vertical takeoff and landing aircraft company for urban air mobility

Lilium

Munich, Germany

German eVTOL company developing electric jets for regional air mobility

Archer Aviation

San Jose, United States

Urban air mobility company developing electric vertical takeoff aircraft

Toray Composite Materials

Tokyo, Japan

Toray carbon fiber and composite materials division for aerospace applications

Teijin Aerospace

Tokyo, Japan

Teijin carbon fiber and composites division for aerospace and automotive

AppHarvest

Morehead, United States

Controlled environment agriculture company operating large greenhouse facilities

John Deere

Moline, United States

Agricultural machinery company integrating AI, sensors, and precision technology

Nutrien

Saskatoon, Canada

World's largest crop nutrient company providing fertilizers and crop inputs

Mosaic Company

Tampa, United States

Phosphate and potash producer for agricultural fertilizers

Chainlink Labs

San Francisco, United States

Decentralized oracle network connecting smart contracts to real-world data

Circle

Boston, United States

Stablecoin issuer and payment infrastructure company behind USDC

Mastercard

Purchase, United States

Global payment technology company connecting consumers and businesses

Martin Marietta

Raleigh, United States

Building materials company supplying aggregates and heavy building materials

Honeywell Building Technologies

Charlotte, United States

Building automation and safety solutions for commercial buildings

Siemens Smart Infrastructure

Zug, Germany

Smart infrastructure solutions connecting buildings, grids, and cities

Schneider Electric

Rueil-Malmaison, France

Digital automation and energy management company for buildings and industry

ecobee

Toronto, Canada

Smart thermostat company focusing on energy efficiency and sustainability

ADT

Boca Raton, United States

Security and automation company for residential and commercial properties

BHP Group

Melbourne, Australia

Diversified natural resources company producing iron ore, copper, and coal

Albemarle Corporation

Charlotte, United States

Specialty chemicals company and world's largest lithium producer

Halliburton

Houston, United States

Oilfield services company providing drilling, completion, and production services

Baker Hughes

Houston, United States

Energy technology company providing oilfield and industrial solutions

Minerals Technologies

New York, United States

Specialty minerals and technology company serving diverse industries

Nornickel

Moscow, Russia

World's largest producer of palladium and high-grade nickel

Mosaic Company

Tampa, United States

Leading producer of concentrated phosphate and potash crop nutrients

ICL Group

Tel Aviv, Israel

Specialty minerals and chemicals company for agriculture and food

Dow Inc

Midland, United States

Materials science company providing innovative solutions for packaging, infrastructure, and consumer care

LyondellBasell

Rotterdam, Netherlands

Plastics, chemicals, and refining company producing polyolefins and chemicals

Spiber

Tsuruoka, Japan

Japanese biotechnology company producing protein-based materials

Lululemon Athletica

Vancouver, Canada

Athletic apparel company with technical performance fabrics

Lenzing AG

Lenzing, Austria

Austrian company producing sustainable wood-based cellulose fibers

Invista

Wichita, United States

Integrated fibers and polymers company producing nylon and spandex

Celanese

Irving, United States

Specialty materials company producing acetyl products and engineered polymers

AGC Inc

Tokyo, Japan

Japanese glass and materials company for construction, automotive, and electronics

Samsung Electronics

Suwon, South Korea

South Korean conglomerate and world's largest technology company by revenue

Sony Corporation

Tokyo, Japan

Japanese multinational conglomerate in electronics, gaming, and entertainment

Panasonic Holdings

Kadoma, Japan

Japanese electronics corporation with focus on batteries and industrial solutions

WHOOP

Boston, United States

Performance optimization wearable for athletes and fitness enthusiasts

Oura Health

Oulu, Finland

Finnish health technology company making the Oura Ring for sleep and wellness tracking

Bose Corporation

Framingham, United States

Audio equipment company known for noise-cancelling headphones and speakers

Sennheiser

Wedemark, Germany

German audio company specializing in headphones and microphones

TCL Technology

Huizhou, China

Chinese electronics company producing TVs, displays, and mobile devices

Philips

Amsterdam, Netherlands