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He is a staff scientist and facility director at Lawrence Berkeley National Laboratory’s Molecular Foundry leading research in thermoelectrics and hydrogen storage. His research focuses on the materials and physics of mass, heat, and charge transport in complex hybrid nanomaterials. His expertise is developing new materials and measurement tools for solid-state energy storage and conversion applications; investigating transport at the organic-inorganic interface; and identifying energy efficient desalination methods.
Areas of expertise: energy storage, hydrogen storage, thermoelectrics, new materials for desalination and water remediation, 2D materials, nanotechnology
Lawrence Berkeley National Laboratory (Berkeley Lab), a U. S. Department of Energy Office of Science national lab managed by the University of California, delivers science solutions to the world – solutions derived from hundreds of patented and patent pending technologies plus scores of copyrighted software tools and published, peer-reviewed manuscripts.
Berkeley Lab has more than one hundred cutting-edge research projects using AI to find new scientific solutions to national problems. Through this effort, computer scientists, mathematicians, and domain scientists are collaborating to turn burgeoning datasets into scientific insights. Visit Berkeley Lab’s Machine Learning for Science site for more information.
Berkeley Lab’s advanced materials expertise is applied to innovation in batteries and other energy storage technologies, semiconductors, and photovoltaics. Additional energy-related areas of expertise include grid modernization and security, bio-based fuels and chemicals and building energy and demand response. Several National User Facilities are available for collaborative engagement: the Advanced Light Source, Molecular Foundry, National Energy Research Scientific Computing Center (NERSC), Energy Sciences Network, and the Joint Genome Institute. Other specialized facilities include FLEXLAB for building energy research and the Advanced Biofuels Process Demonstration Unit.
Ernest Orlando Lawrence, the lab's founder, believed team science yielded the greatest discoveries. That belief is reflected today in interdisciplinary teams and collaborative projects connecting Berkeley Lab, industry, and other research organizations. Berkeley Lab's Intellectual Property Office, connects industry partners with lab innovations and unique facilities to enable lab-to-market transition.
Research in the Long group focuses on the design and controlled synthesis of novel inorganic materials and molecules toward the fundamental understanding of new physical phenomena, with applications in gas storage, molecular separations, conductivity, catalysis, and magnetism. We employ a range of physical methods to analyze and characterize our materials comprehensively, including by gas adsorption analysis, X-ray and neutron diffraction, various spectroscopic techniques, and SQUID magnetometry. For more information about the Long group and a full list of publications, please visit the group website.
A major focus of research in the Long group is the design and study of metal–organic frameworks—porous, inorganic solids built of metal nodes connected by organic linkers—that are of interest for applications ranging from gas storage and molecular separations to catalysis and battery applications.
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