U.S. Department of Energy

General Atomics develops technology solutions for defense, energy, and transportation applications worldwide. The company’s defense solutions comprise aircraft launch and recovery systems; energy solutions include nuclear energy, nuclear fuel, and alternative energy; transportation solutions comprise magnetic levitation (maglev) systems, including urban maglev systems, electromagnetic cargo conveyors, and high-speed maglev systems as well as linear motor systems for civil transportation applications. General Atomics also offers unmanned aircraft systems and sensors as well as training and support services. In addition, the company offers various commercial products, including capacitors, terminal automation products, radiation monitoring systems, deicing products, diagnostic enzymes, electrostatic oil separator systems, nirvana storage products, fusion technology products, research reactor control systems, products for cleanroom services, and algae for aquaculture as well as integrated drive systems, power inverters, and permanent magnet motors. Further, it offers education outreach programs, which include elements that support fusion energy research and development as well as general science education. General Atomics was founded in 1955 and is headquartered in San Diego, California with additional offices in Newport News, Virginia; Lakehurst, New Jersey; and Washington, D.C. It also has operations in Berlin and Dresden, Germany; Adelaide, Australia; Denver, Colorado; Los Alamos, New Mexico; Oklahoma City, Oklahoma; Tupelo, Mississippi; Ogden, Utah; and Washington, District of Columbia.

Con Edison operates one of the world's largest energy delivery systems, providing electricity, gas and steam to most of New York City and Westchester County.

NREL is the only federal laboratory dedicated to the research, development, commercialization and deployment of renewable energy and energy efficiency technologies. Backed by 33 years of achievement, NREL leads the way in helping meet the growing demand for clean energy.

Pacific Northwest National Laboratory (PNNL) operates as a government research laboratory. It conducts fundamental and applied research for the U.S. Department of Energy, government agencies, universities, and industry sponsors focused on homeland security, energy generation, hydrogen and biomass-based fuels, and the environment. PNNL’s interdisciplinary teams of scientists and engineers address many of America’s most pressing challenges in energy, the environment, and national security through advances in basic and applied sciences. It is acknowledged to have 10 core capabilities, including chemical and molecular sciences; chemical engineering; biological systems science; climate change science; environmental subsurface science; applied materials science and engineering; applied nuclear science and technology; advanced computer science, visualization, and data; systems engineering and integration; and large-scale user facilities and advanced instrumentation. PNNL’s scientific mission is to strengthen the U.S. scientific foundations for innovation; increase the U.S. energy capacity and reduce dependence on imported oil; prevent and counter terrorism and the proliferation of weapons of mass destruction; and reduce the environmental effects of human activities and create sustainable systems. Pacific Northwest National Laboratory was founded in 1965 and is based in Richland, Washington with additional offices in Washington, District of Columbia; Seattle and Sequim, Washington; and Portland and Corvallis, Oregon.

Sandia National Laboratories is a premier research and development facility focused on addressing complex national security challenges. Based in Albuquerque, New Mexico, it specializes in the non-nuclear components of nuclear weapons, ensuring the reliability of the United States' nuclear arsenal. In addition to its core mission, Sandia engages in research related to arms control, non-proliferation technologies, and the safe disposal of hazardous waste associated with nuclear weapon production. The laboratory also extends its expertise to various fields, including infrastructure, cybersecurity, and energy, providing critical support to enhance national security and promote peace. Sandia is managed by Sandia Corporation, a wholly owned subsidiary of Lockheed Martin Corporation.

Lawrence Berkeley National Laboratory is a national laboratory that conducts unclassified scientific research on behalf of the United States Department of Energy. Berkeley Lab is a member of the national laboratory system supported by the U.S. Department of Energy through its Office of Science. It is managed by the University of California (UC) and is charged with conducting unclassified research across a wide range of scientific disciplines. Located on a 200-acre site in the hills above the UC Berkeley campus, Berkeley Lab employs approximately 4,200 scientists, engineers, support staff, and students. The Lab is also responsible for creating 5,600 jobs locally and 12,000 nationally. The overall economic impact on the national economy is estimated at $1.6 billion a year. Technologies developed at Berkeley Lab have generated billions of dollars in revenues, and thousands of jobs. Berkeley Lab was founded in 1931 by Ernest Orlando Lawrence, a UC Berkeley physicist who won the 1939 Nobel Prize in physics for his invention of the cyclotron, a circular particle accelerator that opened the door to high-energy physics.

NREL is the only federal laboratory dedicated to the research, development, commercialization and deployment of renewable energy and energy efficiency technologies. Backed by 33 years of achievement, NREL leads the way in helping meet the growing demand for clean energy.

SkyNano is a science-based technology company focused on commercializing a free-market solution to carbon pollution.

NREL is the only federal laboratory dedicated to the research, development, commercialization and deployment of renewable energy and energy efficiency technologies. Backed by 33 years of achievement, NREL leads the way in helping meet the growing demand for clean energy.

Oak Ridge National Laboratory is DOE’s largest multi-program science and energy laboratory that holds a wide range of R&D assignments, from fundamental nuclear physics to applied R&D on advanced energy systems. In addition, it has a reputation for combining insights from fundamental science with an in-depth technical understanding of applied systems to deliver practical solutions to real-world problems. Oak Ridge National Laboratory tracks opportunities to put its solutions to work, often collaborating with industry to accelerate their deployment by the private sector. Products as diverse as radiation detectors, thin-film batteries, high-efficiency heat pumps, and high-performance steel alloys have emerged from the Oak Ridge National Laboratory’s R&D. Transfer of Oak Ridge National Laboratory’s innovations to the private sector has created new industries in the United States, resulted in substantial cost savings for companies and consumers, and provided jobs for Americans. Its staff scientists in collaboration with over 4,000 visiting researchers annually make new scientific discoveries and develop new technologies. Oak Ridge National Laboratory was founded in 1943 and is based in Oak Ridge, T.N.

TerraPower, LLC, founded in 2008 and based in Bellevue, Washington, focuses on developing advanced nuclear energy technology aimed at providing sustainable and economical electricity production. The company is primarily known for its traveling wave reactor (TWR), which generates heat and electricity by utilizing fuel made from depleted uranium. In addition to its core TWR technology, TerraPower operates laboratories to support nuclear research and engineering, develops radioisotope generators for medical applications, and is working on molten chloride fast reactor (MCFR) solutions to extend the benefits of nuclear technology to sectors beyond electricity generation. The company aims to enhance the reliability of nuclear power plants while addressing issues of energy independence, environmental sustainability, and waste management.

Oscilla Power, Inc. is focused on developing renewable energy solutions, primarily through its Triton wave energy converter, which harnesses the potential of ocean waves to generate electricity. The company utilizes its patented iMEC technology platform, which leverages low-cost magnetostrictive alloys to efficiently convert mechanical energy into electrical energy. This technology can be applied to both new systems for large-scale renewable energy production and existing structures to capture energy from vibrational sources. Oscilla Power's efforts are directed towards utility-scale wave energy generation and providing downhole power solutions for the oil and gas industry. The company has received support for its innovative projects from various federal agencies, including the National Science Foundation and the Department of Energy. Founded in 2009 and based in Seattle, Washington, Oscilla Power also maintains satellite offices in Edinburgh, United Kingdom, and Kochi, India.

CalWave is bringing superior power generating technology to market with global reach. Our proprietary wave energy converter technology achieves high performance while surviving storms and extreme conditions. Ocean waves are 20-60 times more energy-dense, predictable, and consistent compared to other forms of renewable energy. They are available at night and during winters. CalWave's patented technology converts this energy to electricity, equipping coastal communities with clean, reliable and local energy while keeping our planet and the health of future generations in mind.

Columbia Power Technologies, Inc. specializes in the development and commercialization of wave energy harvesting systems, focusing on offshore applications. One of its key products, StingRAY, is designed to be deployed in water depths exceeding 60 meters and operates similarly to wind turbines in arrays. This innovative system captures energy from ocean waves and generates electricity on-board, making it suitable for various applications, including powering oceanographic sensors and generating megawatt-scale electricity. Founded in 2005 and headquartered in Charlottesville, Virginia, the company also maintains a research facility in Corvallis, Oregon, where it continues to advance its wave energy technology for reliable performance in diverse sea conditions.

Transitional Energy brings geothermal technology to the oil and gas industry to generate clean, baseload power from heat waste.

Novoreach Technologies develops innovative material solutions for clean energy and environment applications.

Terrestrial Energy Inc. is dedicated to the development and deployment of nuclear reactors utilizing its proprietary Integral Molten Salt Reactor (IMSR) technology, based in Oakville, Canada. Founded in 2012, the company focuses on creating advanced reactor power plants that employ molten salt as both fuel and coolant, enabling efficient heat generation. IMSR technology is designed to provide clean and cost-competitive heat for various industrial applications, extending the use of nuclear energy beyond traditional electric power markets to include processes such as chemical synthesis and desalination. This innovative approach aims to enhance industrial competitiveness and energy security while facilitating rapid global decarbonization by replacing fossil fuel combustion. Terrestrial Energy's IMSR power plants are positioned to enter the market within the 2020s, offering a safe and economically viable solution for harnessing clean energy.

Dimensional Energy is a chemistry company focused on advancing artificial photosynthesis to produce sustainable polymers and chemical intermediates. The company develops innovative technology that efficiently captures and converts carbon dioxide, utilizing waveguides to distribute sunlight evenly throughout scalable reactors. By enhancing the reactivity of carbon dioxide molecules, Dimensional Energy aims to create hydrocarbon fuels that address significant energy requirements while promoting environmental responsibility. Their approach positions them at the forefront of solar fuel viability, leveraging novel, functionalized catalysts to transform energy production.

Quino Energy manufactures batteries that use specially designed reactants called quinones that are dissolved in water. It is made from low-cost coal tar and wood tar, and is more cost-effective than competing battery technologies at longer storage durations of 5-12 hours. Quino Energy has licensed the quinone flow battery technology from Harvard University, where it was first developed.

National Grid is a major energy company operating in the United States and the United Kingdom, focusing on electricity and gas transmission and distribution. In North America, it generates electricity from various sources, including oil, gas, solar, and wind, while also engaging in gas distribution and investment in natural gas infrastructure, such as pipelines. In the UK, National Grid Gas plc manages a high-pressure gas transmission system, comprising over 7,630 kilometers of pipeline and numerous compressor stations. The company is committed to transforming energy networks to deliver cleaner and more resilient energy solutions, aiming to reduce greenhouse gas emissions. National Grid plays a crucial role in connecting customers and communities to energy, emphasizing safety, reliability, and efficiency in its operations. Through its regulated utility businesses and National Grid Ventures, the company is actively working to develop innovative solutions for the energy challenges of the future, collaborating with various stakeholders to facilitate the transition to decarbonized and decentralized energy systems.

Energy Fuels Inc. is a leading integrated uranium mining company based in the United States, focused on the extraction and recovery of uranium for the nuclear energy sector. The company operates key production facilities, including the White Mesa Mill in Utah, the only conventional uranium mill in the country, and the Nichols Ranch in-situ recovery facility in Wyoming. Together, these sites have a combined licensed capacity of approximately 10 million pounds of uranium concentrates annually. Energy Fuels also explores and evaluates various uranium and uranium/vanadium properties across several states, including Utah, Wyoming, Arizona, New Mexico, and Colorado. The company is positioned to meet the growing global demand for clean energy, providing a critical resource for the production of emission-free nuclear power. Established in 1987, Energy Fuels continues to leverage its extensive portfolio of resources to support the nuclear utilities market while contributing to the transition towards sustainable energy solutions.

NREL is the only federal laboratory dedicated to the research, development, commercialization and deployment of renewable energy and energy efficiency technologies. Backed by 33 years of achievement, NREL leads the way in helping meet the growing demand for clean energy.

Sunvapor, Inc. is a renewable energy technology and project development company based in Livermore, California. Founded in 2014, the company specializes in the development of solar parabolic trough collectors that utilize solar thermal energy to produce steam on an industrial scale. Sunvapor offers a solar steam plant that integrates innovative energy storage technology with its solar collectors, enhancing the efficiency and reliability of solar energy production.

Pacific Northwest National Laboratory (PNNL) operates as a government research laboratory. It conducts fundamental and applied research for the U.S. Department of Energy, government agencies, universities, and industry sponsors focused on homeland security, energy generation, hydrogen and biomass-based fuels, and the environment. PNNL’s interdisciplinary teams of scientists and engineers address many of America’s most pressing challenges in energy, the environment, and national security through advances in basic and applied sciences. It is acknowledged to have 10 core capabilities, including chemical and molecular sciences; chemical engineering; biological systems science; climate change science; environmental subsurface science; applied materials science and engineering; applied nuclear science and technology; advanced computer science, visualization, and data; systems engineering and integration; and large-scale user facilities and advanced instrumentation. PNNL’s scientific mission is to strengthen the U.S. scientific foundations for innovation; increase the U.S. energy capacity and reduce dependence on imported oil; prevent and counter terrorism and the proliferation of weapons of mass destruction; and reduce the environmental effects of human activities and create sustainable systems. Pacific Northwest National Laboratory was founded in 1965 and is based in Richland, Washington with additional offices in Washington, District of Columbia; Seattle and Sequim, Washington; and Portland and Corvallis, Oregon.

Flibe Energy, Inc. is an engineering company specializing in the design, construction, licensing, and operation of small modular reactors utilizing liquid fluoride thorium reactor (LFTR) technology. Founded in 2011 and headquartered in Huntsville, Alabama, with additional representatives in Singapore and Australia, the company focuses on harnessing thorium to generate electricity, produce desalinated water from seawater, and create medical therapeutic radioisotopes. The LFTR technology, developed from pioneering work at Oak Ridge National Laboratory, enhances the efficiency of thorium as a sustainable energy source. By employing molten-salt reactor technology, Flibe Energy aims to unlock the full potential of thorium, positioning it as a clean, reliable, and abundant resource for energy and medical applications.

FuelCell Energy, Inc. specializes in the design, manufacture, installation, operation, and servicing of stationary fuel cell power plants designed for distributed power generation. The company offers a range of products, including those based on carbonate fuel cell technology, which can be configured for on-site power generation, utility grid support, and hydrogen production, among others. FuelCell Energy also provides carbon capture systems that extract carbon dioxide from emissions produced by various industrial sources. The company has approximately 300 megawatts of power generation capacity installed or in backlog and serves diverse sectors such as utilities, industrial operations, healthcare, and government facilities. With a strong presence primarily in the United States, South Korea, England, and Germany, FuelCell Energy has generated over 1.5 billion kilowatt hours of power from renewable biogas and clean natural gas. Headquartered in Danbury, Connecticut, the company is also engaged in ongoing research to advance hydrogen generation and solid oxide fuel cell technology.

NuScale Power, LLC specializes in the design, manufacture, and commercialization of small modular reactor nuclear power plants for various power generation applications both in the United States and internationally. The company's flagship product, the NuScale Power Module, operates independently and can function within multi-module configurations. This innovative technology is supported by extensive research and development, drawing on decades of experience from leading nuclear scientists and the U.S. government. NuScale's solutions cater to a wide range of applications, including electric generation, cogeneration, process steam, remote mining operations, desalination, and government needs. Founded in 2007 and headquartered in Portland, Oregon, NuScale also maintains offices in several U.S. cities and London, United Kingdom. The company operates as a subsidiary of Fluor Enterprises, Inc., and has established a strategic partnership with Sargent & Lundy.

SHINE Medical Technologies, LLC is a manufacturer and supplier of medical tracers and cancer treatment elements, specializing in isotopes used for diagnostic and therapeutic purposes. The company produces molybdenum-99, which is essential for imaging and diagnosing conditions such as cancer and heart disease. Additionally, SHINE offers Iodine-131 for the treatment of thyroid cancer and related conditions, as well as Iodine-125, which is utilized in brachytherapy for various cancers. The company also provides Xenon-133, an inhalable gas that assists in evaluating lung function and blood flow in the brain. Founded in 2010 and headquartered in Janesville, Wisconsin, SHINE serves both domestic and international markets with its innovative medical solutions.

Mesodyne's solution is a novel ultra-high energy density, multi-fuel, silent, compact power generator. Our generators convert fuel to electricity with heat and light as intermediaries: a small micro combustor heats a photonic crystal to incandescence and the resulting light is tailored to the bandgap of an infrared cell resulting in unprecedented high efficiencies.

Argonne is a multidisciplinary science and engineering research center, where “dream teams” of world-class researchers work alongside experts from industry, academia and other government laboratories to address vital national challenges in clean energy, environment, technology and national security. Through collaborations with researchers here at Argonne and around the world, they strive to discover new ways to develop energy innovations through science, create novel materials molecule-by-molecule, and gain a deeper understanding of their planet, their climate and the cosmos. Surrounded by the highest concentration of top-tier research organizations in the world, Argonne leverages its Chicago-area location to lead discovery and to power innovation in a wide range of core scientific capabilities, from high-energy physics and materials science to structural biology and advanced computer science. Embracing the nation’s greatest challenges, Argonne’s world-renowned scientists and engineers conduct pioneering research that advances America’s scientific excellence and leadership and helps pave the way to a secure nation with a plentiful supply of safe, sustainable energy, a healthy environment, and a competitive economy. They pursue big, ambitious ideas that redefine what is possible. Their pursuit of groundbreaking discoveries pushes the boundaries of fundamental science, applied science and engineering to solve complex challenges and develop useful technologies that can transform the marketplace and change the world. A center for world-class discovery and scientific excellence, their diverse and dynamic research agenda spans 15 scientific divisions, 14 centers, and six national user facilities. This rich scientific environment provides their researchers – and those who visit us from all corners of the globe – with an extraordinary range of cutting-edge facilities and scientific tools that support in-depth research, drive technological breakthroughs, and improve their nation’s competitiveness and quality of life. Argonne is managed by UChicago Argonne, LLC, for the U.S. Department of Energy's Office of Science

Next Energy Technologies, founded in 2010 and based in Santa Barbara, California, specializes in transparent energy harvesting window technology. The company's innovative approach allows windows to generate energy from sunlight while maintaining aesthetic appeal and high performance. Their technology is designed to work efficiently even in challenging lighting conditions, and it features coatings integrated directly into dual-pane windows, eliminating additional encapsulation costs. This enables clients to convert windows and glass facades into low-cost, on-site renewable energy sources for buildings. Through its advancements, Next Energy Technologies aims to reshape the landscape of energy production in the built environment.

Accio Energy is making distributed wind energy systems scalable, reliable, and affordable with Aerovoltaic energy systems that directly convert wind energy to electricity without any moving parts. Accio Energy Aerovoltaic energy systems offer the low cost of big wind with the modularity and flexibility of solar. It's a new direction in wind energy. The company was founded in 2007 and is based in Ann Arbor, Michigan.

Next Energy Technologies, founded in 2010 and based in Santa Barbara, California, specializes in transparent energy harvesting window technology. The company's innovative approach allows windows to generate energy from sunlight while maintaining aesthetic appeal and high performance. Their technology is designed to work efficiently even in challenging lighting conditions, and it features coatings integrated directly into dual-pane windows, eliminating additional encapsulation costs. This enables clients to convert windows and glass facades into low-cost, on-site renewable energy sources for buildings. Through its advancements, Next Energy Technologies aims to reshape the landscape of energy production in the built environment.

Genera Energy Inc. is a Tennessee-based company that specializes in providing biomass supply solutions for the biofuels, biopower, and biobased products industries. Established in 2008, it processes various biomass feedstocks, including switchgrass, corn stover, biomass sorghum, sugar cane bagasse, and wood. The company offers a comprehensive range of services, including energy crop production, turnkey supply-chain management, and consulting for biomass users and landowners. Genera Energy focuses on creating a connection between biomass users and landowners, ensuring that customers receive consistent, high-quality feedstock while landowners benefit from competitive returns and minimal risk.

General Atomics develops technology solutions for defense, energy, and transportation applications worldwide. The company’s defense solutions comprise aircraft launch and recovery systems; energy solutions include nuclear energy, nuclear fuel, and alternative energy; transportation solutions comprise magnetic levitation (maglev) systems, including urban maglev systems, electromagnetic cargo conveyors, and high-speed maglev systems as well as linear motor systems for civil transportation applications. General Atomics also offers unmanned aircraft systems and sensors as well as training and support services. In addition, the company offers various commercial products, including capacitors, terminal automation products, radiation monitoring systems, deicing products, diagnostic enzymes, electrostatic oil separator systems, nirvana storage products, fusion technology products, research reactor control systems, products for cleanroom services, and algae for aquaculture as well as integrated drive systems, power inverters, and permanent magnet motors. Further, it offers education outreach programs, which include elements that support fusion energy research and development as well as general science education. General Atomics was founded in 1955 and is headquartered in San Diego, California with additional offices in Newport News, Virginia; Lakehurst, New Jersey; and Washington, D.C. It also has operations in Berlin and Dresden, Germany; Adelaide, Australia; Denver, Colorado; Los Alamos, New Mexico; Oklahoma City, Oklahoma; Tupelo, Mississippi; Ogden, Utah; and Washington, District of Columbia.

IDC Westinghouse operates in the energy sector, primarily focusing on nuclear technology and solar lighting solutions. The company is recognized for supplying safe and innovative nuclear technology, delivering reliable nuclear power plants, nuclear fuel, and various plant automation services to utility customers globally. Emphasizing a commitment to safety and sustainability, IDC Westinghouse leverages its extensive history and experience to enhance the efficiency and dependability of nuclear energy. Additionally, the company offers a diverse range of solar landscape lighting products that are noted for their durability and professional quality, catering to both residential and commercial markets.

Gen4 Energy, originally established as Hyperion Power Generation Inc. in 2007, is focused on commercializing the Gen4 Module, an advanced mini nuclear reactor. Developed from intellectual property by scientists at Los Alamos National Laboratory, the Gen4 Module aims to address the demand for a compact and transportable power source that is safe, clean, sustainable, and cost-effective. The G4M reactor, designed by Gen4 Energy, offers a low-cost and efficient alternative to traditional large water reactors, enhancing the licensing processes for next-generation nuclear technologies. This small-scale reactor is particularly suited for applications in mining, oil and gas operations, large government facilities, and isolated communities, providing a reliable source of baseload power.

Next Energy Technologies, founded in 2010 and based in Santa Barbara, California, specializes in transparent energy harvesting window technology. The company's innovative approach allows windows to generate energy from sunlight while maintaining aesthetic appeal and high performance. Their technology is designed to work efficiently even in challenging lighting conditions, and it features coatings integrated directly into dual-pane windows, eliminating additional encapsulation costs. This enables clients to convert windows and glass facades into low-cost, on-site renewable energy sources for buildings. Through its advancements, Next Energy Technologies aims to reshape the landscape of energy production in the built environment.

ITN Energy Systems (ITN) is a research and product development organization focused specifically on technology development and commercialization. As of February 2011, ITN has invested over $180 Million in the development and commercialization of core technologies. ITN’s mission is to develop and commercialize emerging technologies for commercial and government markets by establishing successful spinoffs, joint ventures, and/or licensing arrangements.

Clean Energy Systems, of Rancho Cordova, CA, specializes in the development of zero emissions commercial power plants using an oxy-fuel combustion process. The power plants use oxygen and various fuels to produce power that results in zero atmospheric emissions with carbon dioxide and water as byproducts. The company owns an extensive portfolio of patents and a Bakersfield, CA power plant, used to further develop the oxy fuel technology.

U.S. Geothermal Inc. is a renewable energy company specializing in the development, production, and sale of electricity derived from geothermal energy resources primarily in the Western United States and Guatemala. The company operates geothermal power projects with a combined generation capacity of approximately 39 megawatts at locations including Neal Hot Springs in Oregon, San Emidio in Nevada, and Raft River in Idaho. In addition, U.S. Geothermal is advancing several projects that could add an estimated 115 megawatts of capacity, including developments in The Geysers, California, and a second phase at San Emidio, as well as projects in Crescent Valley, Nevada, and El Ceibillo near Guatemala City. Founded in 2000, U.S. Geothermal is headquartered in Boise, Idaho, and operates as a subsidiary of Ormat Nevada, Inc.

Located in Cambridge, MA, Sun Catalytix is an early-stage renewable energy startup founded on groundbreaking science from the research lab of Professor Daniel Nocera at MIT. With Nature as our inspiration, we seek to combine sunlight and water to provide affordable, highly distributed solar energy to the individual. The elemental components of just 3 gallons of water have enough energy, when recombined, to satisfy the daily energy needs of a large American home. The US receives 500-fold more energy each year than it uses, but unfortunately the sun shines only half the time. At Sun Catalytix we are working to realize the dream of cheap, renewable, personalized energy allowing individuals to use the power around-the-clock. Backed by Polaris Venture Partners, we have started down the path to a sustainable energy future.

Resolute Marine Energy, Inc. is a Boston-based company founded in 2007 that specializes in developing wave energy converters to generate clean energy from ocean waves. The company focuses on harnessing ocean wave energy for power generation and transporting seawater to onshore desalination facilities, effectively producing potable water and electricity. Its technology serves various commercial applications, including open-ocean aquaculture, seawater desalination, and ocean observation systems. By providing wave-driven power services, Resolute Marine Energy aims to support sustainable development, align water supply and demand in water-stressed areas, and contribute to the reduction of carbon emissions. The company has received grants from the Department of Energy and was recognized as the 2010 winner of the Global Entrepreneurship Week's Startup Open competition.

Foro Energy is commercializing high power lasers for the oil, natural gas, geothermal, and mining industries.

Nordic’s N1000, a simple, light-weight 1MW wind turbine is known for its unsurpassed ease of installation and maintenance, exceptional reliability, and low cost of energy generation. Nordic Windpower is a technology developer and manufacturer of innovative, two-bladed wind turbines for the rapidly expanding global wind market.

Nanosolar, Inc. is a manufacturer of solar electricity cells and panels, specializing in cost-efficient solar energy solutions. Founded in 2001 and headquartered in San Jose, California, the company also has manufacturing facilities in Berlin, Germany. Nanosolar utilizes a proprietary printing process to produce CIGS (Copper, Indium, Gallium, Selenium) solar cells and lightweight solar-electric cell foils, known as SolarPly, which can be customized to various sizes. This innovative approach minimizes reliance on expensive vacuum deposition equipment, allowing the company to leverage industrial printing techniques for high-speed production. Nanosolar's product line includes utility panels designed for large-scale power plants, making it a significant player in the solar energy sector.