Los Alamos National Laboratory's mission is to develop and apply science and technology to ensure the safety, security, and reliability of the U.S. nuclear deterrent; reduce global threats; and solve other emerging national security and energy challenges.
The Savannah River National Laboratory offers a unique combination of capabilities, equipment, and infrastructure that are not available anywhere else in the United States. Originally created as part of the complex to maintain the US nuclear deterrent, the current mission and capabilities are a significant asset to the site, region and country to provide solutions to issues of national and international impact.
He has been a Scientist at Los Alamos National Laboratory since 1999, starting as a post-doctoral researcher in 1994. Rod is the Los Alamos Program Manager for the Fuel Cell and Vehicle Technologies Programs. He has worked on fuel cells for transportation at both Los Alamos and General Motors. He has 13 U.S. patents, authored over 100 papers related to fuel cell technology with over 8300 citations and an H-factor of 34. He has led projects on hydrogen production, water transport and PEM fuel cell durability. He was the Principal Investigator for the 2004 Fuel Cell Seminar Best Poster Award, was awarded the 2005 DOE Hydrogen Program R&D Award for his team's work in fuel cell durability, received the U.S. Drive 2012 Tech Team Award for the Fuel Cell Technical Team, was recently selected as the 2014 winner of the Research Award of the Energy Technology Division of the Electrochemical Society and PI for the 2015 Fuel Cell Seminar Best Poster Award. He received a 2016 DOE Fuel Cell Technologies Office Annual Merit Award for Fuel Cells. He is a member of the DOE/US Drive Fuel Cell Technical Team, and is co-chair of the DOE Fuel Cell Technologies Office Durability Working Group and Director for the multi-lab consortium for Fuel Cell Performance and Durability (FC-PAD). As PI/co-PI, he has directed over $50M of funding at Los Alamos.
Dr. Brenda L. Garcia-Diaz is the manager of the Energy Materials Group in SRNL. She has a PhD in Chemical Engineering from the University of South Carolina with a specialization in electrochemical engineering. She has developed Nb-doped TiO2 electrocatalysts and developed models to better understand DMFC operation. Dr. Garcia-Diaz helped develop electrochemical synthesis methods for aluminum hydride. She has worked on novel electrochemical methods for nuclear fuel processing including the development of an electrochemical fluorination method for processing used nuclear fuel, direct LiT electrolysis for tritium recovery in fusion applications, and reduction of oxide nuclear fuels utilizing a solid oxide conducting anode. Dr. Garcia-Diaz is the principal investigator on a DOE SunShot program to investigate and mitigate corrosion in high temperature molten salt heat transfer systems for concentrating solar power (CSP) applications. She is the molten salt corrosion consultant to NREL for the development of a Gen 3 CSP system. Dr. Garcia-Diaz has also led research on the development of MAX phase coatings for accident tolerant nuclear fuel. She has led collaborations with multiple industrial partners, universities, and national laboratories.
Dr. Garcia-Diaz was awarded the ASM International Silver Award, the South Carolina Governor’s Young Researcher award, and the SRNL Early Career Award. In 2018, her project on electrochemical fluorination also won the inaugural SRNL award for LDRD return on investment. Dr. Garcia-Diaz serves as a Board Member for the American Institute of Chemical Engineers RAPID program for process intensification. She is an adjunct faculty member at the University of South Carolina in the Chemical Engineering Department. Dr. Garcia-Diaz is a member of the Hanford Tank Integrity Expert Panel.
She is a materials engineer for the National Renewable Energy Laboratory in charge of determining new fluid formulations (molten salts, liquid metals, supercritical) for thermal applications. She is researching in corrosion mitigation to control degradation at high temperature under extreme conditions (mechanical, chemical, and thermal). She has become a material’s expert in solar thermal applications. She successfully managed complex, multimillion dollar projects, including coordinating multiple partners and professional scientists and engineers. Her understanding of the interaction of materials with the surrounding environment is key for selecting the appropriate materials used in thermal energy storage and heat transfer fluid systems. She has a patent, multiple publications in molten-salt utilization and characterization with applications as sensible heat fluid and phase-change materials, and other publications on corrosion evaluation of ceramics, alloys and surface treatments for high-temperature applications in harsh environments. She earned a bachelor’s and master’s in materials engineering from Simon Bolivar University and a doctorate from Colorado School of Mines in metallurgical and materials engineering. She also holds a research assistant professor appointment in the Metallurgical & Materials Engineering Department at the Colorado School of Mines. She has accumulated over 25 years of experience in materials science and engineering.
The National Renewable Energy Laboratory is the only federal laboratory dedicated to the research, development, commercialization, and deployment of renewable energy and energy efficiency technologies.We focus on creative answers to today's energy challenges, from breakthroughs in fundamental science to new clean technologies to integrated energy systems that power our lives. NREL researchers are transforming the way the nation and the world use energy. Our primary research and development areas are: Analysis, Bioenergy, Buildings, Geothermal, Grid Modernization, Hydrogen and Fuel Cells, Solar, Transportation, Water Power and Wind Energy.
The National Energy Technology Laboratory (NETL) is the only U.S. Department of Energy (DOE) National Laboratory focused on the development of advanced fossil energy technologies. As a government-owned and government-operated (GOGO) national laboratory, the only one within the DOE complex, NETL can quickly identify and bring together the resources necessary to address complex technical problems, as well as market analysis and environmental impact issues. This enables the development of regulatory and technology-based solutions for problems that limit current use of domestic energy resources.
NETL’s program management capabilities can be used to plan and manage transformational technology developments with beneficial near- and long-term economic and environmental impacts. NETL’s onsite analysis and experimental capabilities can be used to pursue high-risk technology developments that enable further industrial development and deployment of commercialized technology solutions.
Strong partnerships enable the lab to deliver on its core mission, to discover, integrate, and mature technology solutions to enhance the nation’s energy foundation and protect the environment for future generations. Partners in NETL’s research efforts number in the thousands and include small and large businesses, national research organizations, leading colleges and universities, and other government laboratories. NETL plans, conducts, and sponsors research to develop oil and gas and coal technologies to produce reliable, affordable, and clean energy in support of the Nation’s economy. The Lab utilizes a complete suite of contractual vehicles, as well as its inherent authority as a GOGO, to pursue technology development through intramural and extramural associations, and to accelerate transition of those technologies into commercial markets. As a GOGO DOE National Laboratory, NETL is the only DOE National Laboratory authorized to issue Funding Opportunity Announcements (FOA’s) on behalf of the Department; a means by which NETL awards hundreds of new financial assistance awards each year. NETL’s partnership service offers opportunities for cost-shared direct funding, licensing, and technology transfer in addition to long-standing commitments to support revitalization of the American Workforce and education in science, technology, engineering, and math (STEM).
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