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DOE awarding >$24M to 77 projects through Technology Commercialization Fund

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The US Department of Energy (DOE) announced more than $24 million in funding for 77 projects supported by the Office of Technology Transitions (OTT) Technology Commercialization Fund (TCF). Ultra-Fast and - Thick Boriding of Geothermal Casing to Enhance Reliability, $150,000 Controlled Thermal Resources Inc., El Centro, Calif.

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UT Austin team identifies promising new cathode material for sodium-ion batteries: eldfellite

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Professor John Goodenough, the inventor of the lithium-ion battery, and his team at the University of Texas at Austin have identified a new cathode material made of the nontoxic and inexpensive mineral eldfellite (NaFe(SO 4 ) 2 ), presenting a significant advancement in the quest for a commercially viable sodium-ion battery.

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New cobalt-free high-voltage spinel cathode material with high areal capacity

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Researchers from the University of California San Diego (UCSD) and the University of Texas at Austin, with colleagues at the US Army Research Laboratory and Lawrence Berkeley National Laboratory, have developed a thick cobalt-free high voltage spinel (LiNi 0.5 O 4 (LNMO)) cathode material with high areal capacity. —Li et al. (a)

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UT Austin team develops new family of high-capacity anode materials: Interdigitated Eutectic Alloys

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Researchers in the Cockrell School of Engineering at The University of Texas at Austin have developed a new family of anode materials that can double the charge capacity of lithium-ion battery anodes. It is a simple, low-cost approach that can be applied to a broad range of alloy systems with various working ions such as Li, Na, or Mg.

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U Texas Austin team finds P2S5 electrolyte additive enables use of Li2S bulk particles for high-capacity cathodes in lithium-sulfur batteries; ~800 mAh/g

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Researchers at the University of Texas at Austin, led by Prof. enables the direct use of commercially available bulk Li 2 S particles as high-capacity cathode materials for rechargeable Li?S The ability to use commercially available bulk particles could significantly decrease the manufacturing cost of Li?S S batteries.

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DOE awarding more than $50M to 15 projects to advance critical material innovations

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Four projects were selected under this topic to validate improved upstream extraction and midstream separation and processing technologies of critical materials at scales that facilitate the next step to commercialization. DOE funding: $2,272,112; costs share: $2,272,112; Total costs: $4,544,224.

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Sandia team boosts hydrogen production activity by molybdenum disulfide four-fold; low-cost catalyst for solar-driven water splitting

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Because of this, a commercial catalyst would require a huge amount of MOS 2. To determine what was happening, and the best way to make it happen, the Sandia team used computer simulations generated by coauthor Na Sai from the University of Texas at Austin that suggested which molecular changes to seek. Chou, Na Sai, Ping Lu, Eric N.

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