Nano Energy
Energy generation, storage, and efficiency using nanotechnology
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.
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.
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.
Nanosphere Inc
Santa Clara, United States
Developer of silicon nanoparticle technology for solar cell efficiency enhancement
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
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
Nanyang Technological University - CNRS
Singapore, Singapore
International joint laboratory for nanotechnology and materials science research
Argonne Center for Nanoscale Materials
Lemont, United States
DOE user facility for nanoscience and nanotechnology at Argonne National Laboratory
Harris & Harris Group
New York, United States
Venture capital firm focused on nanotechnology and transformative companies
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
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
NEI Corporation
Somerset, United States
NEI Corporation, established in 1997 in Somerset, New Jersey, is a leading innovator in the development and manufacturing of advanced nanomaterials and nanoengineered products. The company specializes in three key application areas: energy storage, protective coatings, and life sciences. NEI's flagship NANOMYTE coating technology represents a breakthrough in protective surface treatments, offering superior corrosion resistance, thermal barrier properties, and electromagnetic interference shielding. These nanoengineered coatings utilize advanced ceramic and metallic nanoparticles to create ultra-thin, high-performance protective layers for aerospace, defense, and industrial applications. In the energy storage sector, NEI develops cutting-edge battery materials, including nanoscale cathode and anode materials for lithium-ion batteries, solid-state electrolytes, and advanced electrode formulations that enhance energy density, charge rates, and cycle life. The company's proprietary synthesis techniques enable precise control over particle size, morphology, and composition at the nanoscale, resulting in materials with exceptional electrochemical performance. NEI's nanomaterials portfolio extends to biomedical applications, including nanoparticle-based drug delivery systems and diagnostic tools. With over 25 years of experience in nanotechnology, NEI has secured more than $25 million in funding and maintains strategic partnerships with government agencies, research institutions, and commercial partners. The company's expertise in scalable nanomanufacturing processes has positioned it as a key supplier for next-generation energy storage systems, particularly as the electric vehicle and renewable energy markets expand. NEI's commitment to advancing nanoscale materials science continues to drive innovation in protective coatings, battery technology, and emerging nanotechnology applications, establishing the company as a significant player in the commercial nanotechnology landscape.
Sky Nano
Knoxville, United States
Sky Nano, founded in 2017 in Knoxville, Tennessee, represents a groundbreaking convergence of environmental sustainability and advanced nanotechnology. The company has developed a revolutionary process that transforms carbon dioxide, a harmful greenhouse gas, into high-value carbon nanotubes, effectively turning an environmental liability into a valuable industrial asset. This innovative approach addresses two critical global challenges simultaneously: climate change mitigation and the growing demand for advanced nanomaterials. Sky Nano's proprietary technology uses carbon dioxide as the primary feedstock for producing multi-walled carbon nanotubes through a novel electrocatalytic process. Unlike traditional carbon nanotube manufacturing methods that rely on fossil fuels and generate significant CO2 emissions, Sky Nano's process actually consumes CO2, making it carbon-negative. The resulting carbon nanotubes exhibit exceptional mechanical strength, electrical conductivity, and thermal stability, making them ideal for applications in batteries, composites, conductive additives, and advanced materials. The company's technology has significant implications for the battery industry, where carbon nanotubes can enhance electrode performance, increase energy density, and improve charge-discharge rates in lithium-ion batteries. Sky Nano has secured over $10 million in funding from investors and government grants, reflecting strong confidence in its dual value proposition of environmental benefit and commercial viability. The company's approach exemplifies the principles of carbon capture and utilization, transforming waste CO2 from industrial sources into valuable products. As global demand for carbon nanotubes continues to grow across electronics, energy storage, and composite materials sectors, Sky Nano's sustainable production method positions it as a pioneer in green nanotechnology manufacturing and a significant contributor to the circular carbon economy.
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
Enevate Corporation
Irvine, United States
Developer of silicon-dominant anode technology for fast-charging electric vehicle batteries
StoreDot
Herzliya, Israel
Developer of extreme fast charging (XFC) battery technology using proprietary nanoparticle compounds
Hanwha Chemical
Seoul, South Korea
Major Korean chemical conglomerate with significant CNT and nanomaterials production
Jiangsu Cnano Technology
Zhenjiang, China
One of China's largest producers of carbon nanotubes for battery applications
Chengdu Organic Chemicals
Chengdu, China
Chinese Academy of Sciences spin-off producing CNTs, fullerenes, and nanomaterials
Versarien
Cheltenham, United Kingdom
UK advanced materials company producing graphene and graphene-enhanced products
Ningbo Morsh Technology
Ningbo, China
Chinese graphene company focused on thermal management and energy applications
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
Elcora Advanced Materials
Halifax, Canada
Canadian graphene and graphite company for battery applications
Nano Labs Corp
Wuxi, China
Chinese company producing carbon nanotubes for electronics and energy storage
NanoPow
Lund, Sweden
Swedish startup producing silicon nanopowders for next-generation batteries
American Process Inc (Renmatix)
Atlanta, United States
US producer of nanocellulose using supercritical water extraction
Cree (Wolfspeed)
Durham, United States
World leader in silicon carbide semiconductors
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
CNRS
Paris, France
France's premier scientific research organization with major nanotechnology programs
Nanyang Technological University
Singapore, Singapore
Leading Asian university with strong nanotechnology research programs
Reliance Industries - Nanotech
Mumbai, India
Indian conglomerate with major investments in nanotechnology and materials
Skeleton Technologies
Tallinn, Estonia
Graphene ultracapacitor manufacturer for energy storage
Chasm Advanced Materials
Canton, United States
CNT transparent conductive films and inks
Forge Nano
Thornton, United States
Particle ALD coating for battery and catalyst materials
CelLink
San Carlos, United States
Flexible printed circuit technology for EV batteries
Elcora Advanced Materials
Halifax, Canada
Graphite mining and graphene production
Perpetuus Carbon Technologies
Swansea, United Kingdom
Large-scale functionalized graphene and CNT production
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
BYD Company
Shenzhen, China
Major EV and battery manufacturer with Blade Battery technology
Navitas Semiconductor
Torrance, United States
GaN power IC pioneer for fast charging and EVs
Transphorm
Goleta, United States
GaN power FETs for high-efficiency power conversion
Climeon
Stockholm, Sweden
Heat power systems using advanced nanomaterials
Haldor Topsoe
Lyngby, Denmark
World leader in heterogeneous catalysis with nano-engineered catalysts
REC Silicon
Sandvika, Norway
High-purity silicon materials for solar and electronics
Bharat Heavy Electricals Nano
New Delhi, India
Nanotechnology R&D for power and industrial applications
Log 9 Materials
Bangalore, India
Graphene and aluminum-based batteries
NTU Nanyang NanoMaterials
Singapore, Singapore
Leading nanotechnology research at NTU
Petrobras CENPES
Rio de Janeiro, Brazil
Petrobras research center with nano-catalysis programs
YPF Tecnología
Berisso, Argentina
YPF R&D center with nano-catalysis research
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
RUSNANO
Moscow, Russia
Russian nanotechnology investment corporation
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
Arkema Nanomaterials
Colombes, France
Industrial-scale carbon nanotubes and nanomaterials
Sixth Element Materials
Changzhou, China
Large-scale graphene oxide production
Max Planck Institute for Solid State Research
Stuttgart, Germany
Leading German solid-state and nano research
Tsinghua-Berkeley Shenzhen Institute
Shenzhen, China
Joint Tsinghua-Berkeley nano and energy research
NANO Nuclear Energy
New York, United States
Portable nuclear microreactors
Sol Voltaics
Lund, Sweden
Nanowire-based solar cells
Suzhou Institute of Nano-Tech
Suzhou, China
CAS nanotechnology research institute
National Centre for Nanosciences Kenya
Nairobi, Kenya
University of Nairobi nano research
Sila Nanotechnologies
Alameda, United States
Silicon-dominant anode materials
Amprius Technologies
Fremont, United States
Silicon nanowire anodes
Cuberg
San Leandro, United States
Next-gen lithium-metal batteries
Factorial Energy
Woburn, United States
Solid-state battery technology
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
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
Maxell
Tokyo, Japan
Ceramic solid-state batteries
NGK Insulators
Nagoya, Japan
NAS grid-scale 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
Posco Chemical
Pohang, South Korea
Anode and cathode materials
Shanshan Technology
Shanghai, China
Battery materials leader
Zichen Technology
Shenzhen, China
Battery separator films
W-Scope
Cheongju, South Korea
Wet-process lithium battery separators
SK IE Technology
Seoul, South Korea
LiBS separators and copper foils
Celgard
Charlotte, United States
Dry-process PP separators
BASF Battery Materials
Ludwigshafen, Germany
High-nickel cathode materials
Johnson Matthey Battery
London, United Kingdom
eLNO high-energy cathodes
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
Ube Industries Battery
Ube, Japan
Electrolyte solvents and separators
Central Glass Battery
Ube, Japan
LiPF6 and specialty gases
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
Furukawa Electric Battery
Tokyo, Japan
Copper foils for batteries
Iljin Materials
Seoul, South Korea
Electrolytic copper foils
SKC
Suwon, South Korea
Copper foils and films
Nuode Investment
Huizhou, China
Lithium battery copper foils
Guangdong Jia Yuan Technology
Meizhou, China
Electrolytic copper foils
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
Ioneer
Perth, Australia
Lithium-boron project
American Battery Technology
Reno, United States
Battery recycling and extraction
Li-Cycle
Toronto, Canada
Lithium-ion battery recycling
Redwood Materials
Carson City, United States
Closed-loop battery recycling
Cirba Solutions
Lancaster, United States
Battery collection and recycling
Fortum Battery Recycling
Espoo, Finland
Low-CO2 battery recycling
Brunp Recycling
Foshan, China
CATL's recycling arm
GEM Co
Shenzhen, China
Urban mining and recycling
Orion Engineered Carbons
Luxembourg, Luxembourg
Specialty carbon blacks for rubber, coatings, and batteries
Lion Specialty Chemicals
Tokyo, Japan
CNT dispersions and specialty surfactants
Kuraray Carbon
Osaka, Japan
Activated carbon for supercapacitors and water treatment
Timcal (Imerys)
Bodio, Switzerland
Graphite and carbon additives for batteries
NGK Insulators
Nagoya, Japan
Advanced ceramics for automotive and electronics
Korea Institute of Science and Technology (KIST)
Seoul, South Korea
Korean national research institute with nano programs
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
Ubiquitous Energy
Redwood City, United States
Transparent solar cells with nano-scale selective absorbers
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
Tata Chemicals Innovation Centre
Pune, India
R&D in nanomaterials and energy storage
Universidad de los Andes Nanotechnology
Bogotá, Colombia
Leading Colombian nanotechnology research
Imerys
Paris, France
Specialty minerals including graphite and carbon additives
Asahi Kasei
Tokyo, Japan
Diversified materials and healthcare company
Kaneka Corporation
Osaka, Japan
Polymers, electronics, and life science materials
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
Semikron Danfoss
Nuremberg, Germany
Power semiconductor modules
Fuji Electric
Tokyo, Japan
Power semiconductors and industrial systems
Atmosic Technologies
San Jose, United States
Lowest power BLE with energy harvesting
Dracula Technologies
Valence, France
Organic photovoltaics for indoor energy harvesting
Epishine
Linköping, Sweden
Printed organic solar cells
Heliatek
Dresden, Germany
Organic solar films for buildings
Armor Solar Power Films
Nantes, France
Printed organic photovoltaics
Ascent Solar Technologies
Thornton, United States
Flexible CIGS solar technology
MiaSolé Hi-Tech
Santa Clara, United States
Flexible CIGS solar panels
NICE Solar Energy
Mianyang, China
Flexible CIGS solar production
Midsummer
Järfälla, Sweden
CIGS manufacturing equipment and solar panels
AVANCIS
Torgau, Germany
CIGS thin-film solar modules
Hollingsworth & Vose
East Walpole, United States
Specialty filtration media including nanofiber and advanced nonwovens
Institute of Materials Research and Engineering
Singapore, Singapore
A*STAR institute specializing in materials science and nanotechnology
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
Jawaharlal Nehru Centre for Advanced Scientific Research
Bangalore, India
Multidisciplinary research center with strong nanomaterials programs
University of Cape Town Nano
Cape Town, South Africa
Top African university with nanotechnology and catalysis research
Egypt Nanotechnology Center
Cairo, Egypt
National nanotechnology center for energy and water applications
Sharif University of Technology Nano
Tehran, Iran
Top Iranian technical university with nanotechnology research programs
Centro de Investigación en Materiales Avanzados
Chihuahua, Mexico
Mexican center for advanced materials including nanotechnology
Brazilian Nanotechnology National Laboratory
Campinas, Brazil
Brazilian national lab with advanced nanofabrication and characterization
Universidad de Concepción Nano
Concepción, Chile
Chilean university with strong catalysis and nanomaterials programs
Bar-Ilan University Institute of Nanotechnology
Ramat Gan, Israel
University institute specializing in nanomedicine and nano-energy
City University of Hong Kong
Hong Kong, Hong Kong
University with Centre for Functional Photonics and nanomaterials research
Shanghai Jiao Tong University Nano
Shanghai, China
Major Chinese university with nanomaterials and energy research
KAIST
Daejeon, South Korea
Korea's top technical university with nanofab and research
Sungkyunkwan University Nano
Suwon, South Korea
Samsung-affiliated university with advanced graphene research
Helmholtz Association Nano
Berlin, Germany
German research centers with energy and materials nanotech
Quantum Materials Corp
San Marcos, United States
Tetrapod quantum dots for solar cells and displays
Planar Energy
Frederick, United States
Solid-state thin-film batteries using advanced deposition
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
Prologium Technology
New Taipei City, Taiwan
Ceramic solid-state battery technology for EVs
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
Aspen Aerogels
Northborough, United States
Aerogel insulation for energy and industrial markets
Frontier Carbon Corporation
Kitakyushu, Japan
Mitsubishi subsidiary for industrial fullerene production
Sumitomo Electric Industries
Osaka, Japan
Compound semiconductors including GaN and SiC substrates
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
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
Kureha Corporation
Tokyo, Japan
Specialty chemicals with PVDF binder for lithium batteries and pitch-based carbon fiber
Haynes International
Kokomo, United States
High-performance nickel and cobalt-based superalloys for aerospace and chemical processing
Navitas Semiconductor
Torrance, United States
GaNFast power ICs and GeneSiC SiC technology for mobile chargers, EVs and data centers
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
FuelCell Energy
Danbury, United States
Carbonate fuel cell power plants with carbon capture capability
Nel ASA
Oslo, Norway
Global leader in electrolyzer technology for green hydrogen production
ITM Power
Sheffield, United Kingdom
PEM electrolyzer manufacturer for industrial-scale green hydrogen
Nikola Corporation
Phoenix, United States
Zero-emission heavy-duty trucks with hydrogen fuel cell and battery electric powertrains
Cummins Hydrogenics
Columbus, United States
Hydrogen fuel cells and electrolyzers from engine manufacturer Cummins
Toyota Fuel Cell
Toyota City, Japan
Pioneer in hydrogen fuel cell vehicles with Mirai and commercial applications
Hyundai Hydrogen Mobility
Seoul, South Korea
Hydrogen fuel cell vehicles including NEXO SUV and XCIENT trucks
Linde Hydrogen
Dublin, Ireland
Global industrial gas company with comprehensive hydrogen solutions
Air Liquide Hydrogen
Paris, France
Industrial gas leader with extensive hydrogen production and distribution network
Air Products Hydrogen
Allentown, United States
World's largest hydrogen producer with major green hydrogen projects
Intelligent Energy
Loughborough, United Kingdom
Hydrogen fuel cell systems for UAVs, portable power, and automotive
Advent Technologies
Boston, United States
High-temperature PEM fuel cells and advanced membrane electrode assemblies
SFC Energy
Brunnthal, Germany
Direct methanol fuel cells for portable and stationary power applications
Proton Power Systems
Puchheim, Germany
PEM fuel cells for heavy-duty applications including buses, trucks, and ships
AFC Energy
Cranleigh, United Kingdom
Alkaline fuel cell systems for off-grid power and EV charging
Ceres Power
Horsham, United Kingdom
Steel Cell solid oxide technology for fuel cells and electrolyzers
Sunfire
Dresden, Germany
High-temperature electrolyzers for efficient green hydrogen and syngas production
Elogen
Les Ulis, France
PEM electrolyzer technology for industrial hydrogen production
Enapter
Saerbeck, Germany
Modular AEM electrolyzers for distributed hydrogen production
Hydrogen Optimized
Toronto, Canada
Large-scale water electrolysis systems for green hydrogen production
Electric Hydrogen
San Carlos, United States
Large-scale PEM electrolyzers designed for industrial green hydrogen
H2Pro
Caesarea, Israel
E-TAC membrane-free water splitting technology for low-cost green hydrogen
Hysata
Wollongong, Australia
Capillary-fed electrolysis technology achieving 95% system efficiency
Ohmium
Newark, United States
Modular PEM electrolyzers manufactured in gigafactory
Verdagy
Moss Landing, United States
Advanced water electrolysis technology for large-scale green hydrogen
Hyvia
Villiers-Saint-Frédéric, France
Renault-Plug Power joint venture for hydrogen mobility solutions
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
Hydrogenics (Cummins)
Mississauga, Canada
Pioneer in hydrogen technology now part of Cummins
Hexagon Purus
Ålesund, Norway
Composite pressure vessels for hydrogen storage in vehicles and infrastructure
Worthington Industries Hydrogen
Columbus, United States
Steel and composite cylinders for hydrogen storage and transportation
Chart Industries
Ball Ground, United States
Cryogenic equipment for hydrogen liquefaction, storage, and distribution
HTEC (Hydrogen Technology & Energy Corporation)
Vancouver, Canada
Hydrogen fueling network and infrastructure developer in North America
FirstElement Fuel
Irvine, United States
Largest hydrogen refueling network operator in California
H2 Green Steel
Stockholm, Sweden
Building world's first large-scale green hydrogen steel plant
HIF Global
Houston, United States
eFuels producer using green hydrogen and captured CO2
Infinium
Sacramento, United States
Producer of ultra-low carbon electrofuels from green hydrogen
Hy2gen
Wiesbaden, Germany
Developer and operator of green hydrogen and e-fuels production facilities
NEOM Green Hydrogen
NEOM, Saudi Arabia
World's largest green hydrogen project for ammonia export
HydrogenOne Capital
London, United Kingdom
Investment fund focused on clean hydrogen across the value chain
GenH2
Titusville, United States
Liquid hydrogen generation, storage, and delivery solutions
Universal Hydrogen
Hawthorne, United States
Hydrogen conversion kits for regional aircraft with modular capsule delivery
H2FLY
Stuttgart, Germany
Hydrogen-electric powertrains for aircraft propulsion
Hydrogenious LOHC Technologies
Erlangen, Germany
Liquid Organic Hydrogen Carrier technology for safe hydrogen storage
Lhyfe
Nantes, France
Green and renewable hydrogen producer including offshore production
Fortescue Future Industries
Perth, Australia
Green hydrogen and renewable energy arm of Fortescue Metals
ACWA Power Hydrogen
Riyadh, Saudi Arabia
Major green hydrogen project developer in Middle East and globally
Thyssenkrupp Nucera
Dortmund, Germany
Large-scale alkaline water electrolysis for green hydrogen
John Cockerill Hydrogen
Seraing, Belgium
Alkaline and PEM electrolyzer manufacturer with industrial heritage
McPhy Energy
Grenoble, France
Zero-carbon hydrogen production and distribution equipment
Redwire Space
Jacksonville, United States
Space infrastructure company providing components and manufacturing
BASF Coatings
Ludwigshafen, Germany
Global chemical company with advanced coatings and surface treatment solutions
Arkema Advanced Materials
Colombes, France
Specialty chemicals and advanced materials company focused on high-performance solutions
Sociedad Quimica y Minera
Santiago, Chile
Global company producing lithium, specialty fertilizers, and industrial chemicals
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
ProLogium Technology
Taoyuan, Taiwan
Solid-state battery company producing ceramic oxide-based batteries
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
Republic Services
Phoenix, United States
Environmental services company providing waste and recycling solutions
Waste Management
Houston, United States
North America's largest environmental solutions provider
Carbon Engineering
Squamish, Canada
Direct air capture company producing clean fuels from captured CO2
Global Thermostat
New York, United States
Carbon capture company using low-cost heat to capture CO2
Twelve
Berkeley, United States
Carbon transformation company making products from CO2
Prometheus Fuels
Santa Cruz, United States
Carbon-neutral fuels company making gasoline from air and water
Joby Aviation
Santa Cruz, United States
Electric vertical takeoff and landing aircraft company for urban air mobility
Beta Technologies
South Burlington, United States
Electric aviation company developing eVTOL aircraft and charging network
Woodward Inc.
Fort Collins, United States
Control systems company providing fuel and actuation systems for aerospace
Volvo Construction Equipment
Gothenburg, Sweden
Construction equipment manufacturer advancing electric and autonomous machines
Fluor Corporation
Irving, United States
Engineering and construction company for energy, chemicals, and infrastructure
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
Glencore
Baar, Switzerland
Diversified natural resource company in mining and commodity trading
Schlumberger
Houston, United States
Technology company driving energy innovation for drilling and production
Baker Hughes
Houston, United States
Energy technology company providing oilfield and industrial solutions
Fortescue Metals
Perth, Australia
Iron ore producer transitioning to green energy through Fortescue Future Industries
First Quantum Minerals
Vancouver, Canada
Copper and gold mining company with operations in multiple continents
Ivanhoe Mines
Vancouver, Canada
Mining company developing world-class projects in Africa
Nornickel
Moscow, Russia
World's largest producer of palladium and high-grade nickel
AGC Inc
Tokyo, Japan
Japanese glass and materials company for construction, automotive, and electronics
Anker Innovations
Shenzhen, China
Chinese electronics company known for charging accessories and audio
Avis Budget Group
Parsippany, United States
Global vehicle rental company
NextEra Energy
Juno Beach, United States
World's largest producer of wind and solar energy
Enphase Energy
Fremont, United States
Smart solar and battery systems with microinverter technology
SolarEdge
Herzliya, Israel
Smart energy technology with DC optimized inverter systems
First Solar
Tempe, United States
Leading American thin-film solar panel manufacturer
ChargePoint
Campbell, United States
Leading EV charging network with hardware and software solutions
EVgo
Los Angeles, United States
Public fast charging network for electric vehicles
Fluence Energy
Arlington, United States
Global energy storage and digital services provider
Form Energy
Somerville, United States
Multi-day energy storage using iron-air battery technology
Stem Inc
San Francisco, United States
AI-driven clean energy solutions and storage optimization
Dandelion Energy
Mount Kisco, United States
Home geothermal heating and cooling systems
BlocPower
Brooklyn, United States
Building electrification and clean energy retrofits for cities
Turntide Technologies
Sunnyvale, United States
Smart electric motors and building energy efficiency technology
Sunnova Energy
Houston, United States
Residential solar and energy services provider
Arcadia
Washington, United States
Clean energy platform connecting consumers to renewables
Ørsted
Fredericia, Denmark
Global leader in offshore wind energy development
Vestas
Aarhus, Denmark
World's largest wind turbine manufacturer
Tesla
Austin, United States
Electric vehicle and clean energy company leading the EV revolution
Bosch Mobility
Stuttgart, Germany
Bosch's mobility solutions division for automotive technology
Recurrent
Seattle, United States
EV battery health and range analytics platform for used EVs
Monarch Tractor
Livermore, United States
Electric autonomous tractor company
Aigen
Seattle, United States
Solar-powered weeding robots
Wärtsilä
Helsinki, Finland
Smart marine technology and engines
Rolls-Royce Marine
London, United Kingdom
Marine propulsion and ship design
ABB Marine
Zurich, Switzerland
Marine electrification and automation
Transas
London, United Kingdom
Maritime navigation and simulation
Yara Birkeland
Oslo, Norway
World's first autonomous electric container ship
TECO 2030
Lysaker, Norway
Marine hydrogen fuel cells
Corvus Energy
Bergen, Norway
Maritime battery systems
Echandia
Stockholm, Sweden
Marine battery and fuel cell systems
Hydrogenious LOHC
Erlangen, Germany
Liquid organic hydrogen carrier technology
Stena Line Digital
Gothenburg, Sweden
AI-assisted ferry operations
MAN Energy Solutions
Augsburg, Germany
Marine engines and energy solutions
Ola Cabs
Bangalore, India
Ola Cabs (simply Ola) is India's leading mobility platform offering ride-hailing, auto-rickshaw booking, bike taxis, car rentals, and electric vehicle services across hundreds of cities in India and select international markets. Founded in 2010 in Bangalore with over $5 billion in funding and 5,000+ employees, Ola has facilitated billions of rides and become deeply integrated into Indian urban transportation. The platform offers multiple ride options tailored to Indian preferences and price points, from shared economy rides to premium sedans and luxury vehicles. Ola Auto revolutionized the auto-rickshaw experience by bringing traditionally unorganized three-wheeler taxis onto a digital platform with transparent pricing and driver ratings. Ola Bike provides motorcycle taxi services for quick, affordable transportation through congested traffic. The company's rental services enable multi-hour and multi-day car bookings for intercity travel and special occasions. Ola Electric, a separate division, has become a major electric scooter manufacturer with ambitions to lead India's electric vehicle transition, operating one of the world's largest electric scooter factories. The platform's driver-partner ecosystem provides livelihood opportunities for millions of Indians, with features supporting driver welfare, training, and vehicle financing. Ola has successfully competed against global giant Uber through deep localization, understanding of Indian payment preferences (including cash), vernacular language support, and navigation optimized for Indian addresses and landmarks. The company expanded internationally to Australia, New Zealand, and the UK before consolidating focus on its dominant Indian market. With India's urbanization, growing middle class, and increasing digital adoption, Ola plays a crucial role in modern Indian urban mobility infrastructure.
Bird
Miami, United States
Electric scooter sharing
Tier Mobility
Berlin, Germany
European micro-mobility provider
Polestar
Gothenburg, Sweden
Swedish electric performance cars
NIO
Shanghai, China
Premium smart electric vehicles
Electrify America
Reston, United States
Ultra-fast EV charging
CNano Technology
Zhenjiang, China
Carbon nanotube manufacturer for lithium-ion batteries
LG Chem CNT
Seoul, South Korea
Carbon nanotube production for battery and composite applications
Kumho Petrochemical CNT
Seoul, South Korea
Multi-wall carbon nanotube production for industrial use
NanoFlex Power
Scottsdale, United States
Nanostructured thin-film solar cells
Nanowire Sciences
Troy, United States
Nanowire-based solar cell technology
KIST Nano Materials
Seoul, South Korea
Korea nanotechnology research institute
National Institute for Nanotechnology
Edmonton, Canada
Canada national nanotechnology research facility
Jülich Forschungszentrum Nano
Jülich, Germany
German nanotechnology and quantum research center
Samsung SDI Nano
Yongin, South Korea
Nanomaterials for batteries and energy storage
BASF Nano
Ludwigshafen, Germany
Nanomaterials for catalysts, coatings, and electronics
Group14 Technologies
Woodinville, United States
Silicon-carbon composite anode materials
Enovix
Fremont, United States
3D silicon lithium-ion battery architecture
Enevate
Irvine, United States
Silicon-dominant batteries for fast charging
Amprius Technologies
Fremont, United States
Silicon nanowire anode batteries for aerospace
Nexeon
Abingdon, United Kingdom
Silicon anode materials for lithium-ion batteries
NanoGraf
Chicago, United States
Silicon-graphene anode materials for batteries
Ilika
Southampton, United Kingdom
Solid-state battery technology for IoT and EV
Graphene Manufacturing Group
Brisbane, Australia
Contaminant-free graphene manufacturer with thermal coatings and aluminum-ion battery products
The Sixth Element
Changzhou, China
Leading manufacturer of graphene, graphene oxide with 260 tons/annum capacity
LeydenJar Technologies
Eindhoven, Netherlands
Pure silicon foil anodes with 1,200 mAh/g capacity and 90% less swelling
Sicona Battery Technologies
Sydney, Australia
Silicon anode materials for high energy density batteries
trinano technologies
Munich, Germany
Nanocoating for solar modules increasing energy output by 4%
Epsilon Advanced Materials
Mumbai, India
Advanced materials for battery applications
3DC
Tokyo, Japan
Graphene mesosponge (GMS) 3D carbon nanomaterial for batteries and fuel cells
Nanoacts
Sofia, Bulgaria
Nanogenerators converting waste energy into electricity for IoT
Hanwha Advanced Materials
Seoul, South Korea
Advanced CNT materials for automotive and solar applications
Tiannai Technology
Shenzhen, China
Single-walled CNT products for solid-state battery manufacturers
HT Materials Science
Los Angeles, United States
Proprietary heat transfer fluid technology using nanomaterials
Nanostine
Valencia, Spain
Ultra-pure nanostructured coatings using magnetron sputtering
Nium
London, United Kingdom
Nanotechnology-enabled modular reactors for greener ammonia production
INEM Technologies
Athens, Greece
Novel nanomaterials for lithium-ion battery performance and electrochemical devices
GCL Nano
Suzhou, China
Large-sized perovskite solar modules with 26.36% tandem efficiency
EneCoat Technologies
Kyoto, Japan
Next-generation perovskite solar cell development with INPEX investment
Beyond Silicon
Chandler, United States
Perovskite-on-silicon tandem solar cells with 28%+ efficiency goal
American Perovskites
San Jose, United States
Novel materials production for perovskite solar cell scaling
Perotech Energy
Chapel Hill, United States
Perovskite bifacial modules using high-throughput low-cost processes
Synaptec
Glasgow, United Kingdom
Optical nanosensors for power grid monitoring
UP Catalyst
Tallinn, Estonia
Electrochemical carbon nanomaterial production from CO2 for catalysis and batteries
TerraLIX
Seoul, South Korea
Advanced hydrogen fuel cell modules with metal separator plates
QuantumSphere
Santa Ana, United States
Metallic nanoparticle catalysts for fuel cells and batteries