$30 Million to Improve Reliability and Performance of PV Modules
The Energy Department's National Renewable Energy Laboratory (NREL), in partnership with Sandia National Laboratories, Lawrence Berkeley National Laboratory, and SLAC National Accelerator Laboratory, will form a new consortium intended to accelerate the development of module materials for photovoltaics (PV) and lower the cost of electricity generated by solar power.
The Durable Module Materials (DuraMat) National Lab Consortium will receive approximately $30 million over five years from the Energy Department's SunShot Initiative. Overall, SunShot funds projects designed to accelerate the market competitiveness of solar power and has chosen to focus the DuraMat program on module materials to complement the SunShot portfolio.
Teresa Barnes, from NREL's Materials Science Center, will be the director for DuraMat. Anthony Martino of Sandia National Laboratories will be the deputy director. "DuraMat provides easily accessible capabilities that bring the national lab and university research infrastructure together with the PV and supply-chain industries," Barnes said. "Our research strategy integrates data analytics, module durability testing, prototyping, predictive modeling, field deployment, materials discovery, materials forensics, and technology transfer to accelerate module material development and reduce the cost of electricity from photovoltaics."
The Energy Department's Office of Energy Efficiency and Renewable Energy (EERE) in February announced the launch of the Energy Materials Network (EMN), an initiative crafted to give U.S. entrepreneurs and manufacturers a competitive edge in the global race for clean energy. EMN focuses on tackling one of the major barriers to widespread commercialization of clean energy technologies - namely the design, testing, and production of advanced materials. By strengthening and facilitating industry access to the unique scientific and technical advanced materials innovation resources available at the Energy Department's national labs, the network will help industry bring these materials to market more quickly.
As part of the EMN, the DuraMat consortium will provide industry and academia the expertise and capabilities that can only be found at the national laboratories. DuraMat will develop unique capabilities to more quickly develop, characterize, and deploy new materials and architectures that will improve the value of PV modules for PV manufacturers, plant developers, financiers, and utilities. With module materials already accounting for 40 percent or more of the total PV module costs, DuraMat will address the substantial opportunities that exist for durable, high-performance, low-cost materials for module components.
DuraMat is the latest EMN consortia created by EERE. Launched earlier this year, the Lightweight Materials Consortium (LightMat) focuses on lightweight materials for various applications, Electrocatalysis Consortium (ElectroCat) on new catalysts in fuel cells, and Caloric Cooling Consortium (CaloriCool) on refrigerant materials for cooling applications. Three more consortia are anticipated to be announced in fiscal 2017.
EERE envisions that dramatically accelerating the development of new PV module materials will clear the way for significant reductions in the cost of solar power. It is expected that DuraMat will lead to dependable, high-performance, low-cost PV module materials and architectures by: Developing module technologies that will enable dramatic reductions in the levelized cost of energy from solar power. Building a network of active collaborations from within the national laboratories, academia, and industry to design, develop, and deploy advanced module materials. And moving highly promising module materials and technologies from early stages of research to successful deployment in the marketplace at an accelerated rate.