首页|Findings from Imperial College London Broaden Understanding of Machine Learning (Na Vacancy-driven Phase Transformation and Fast Ion Conduction In W-doped Na3sb s4 From Machine Learning Force Fields)
Findings from Imperial College London Broaden Understanding of Machine Learning (Na Vacancy-driven Phase Transformation and Fast Ion Conduction In W-doped Na3sb s4 From Machine Learning Force Fields)
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By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News – Investigators publish new report on Ma chine Learning. According to news reporting originating from London, United King dom, by NewsRx correspondents, research stated, “Solid-state sodium batteries re quire effective electrolytes that conduct at room temperature. The Na(3)PnCh(4) (Pn = P, Sb; Ch = S, Se) family has been studied for their high Na ion conductiv ity.” Financial supporters for this research include Swedish Research Council, Swedish Research Council, Engineering & Physical Sciences Research Counci l (EPSRC).
LondonUnited KingdomEuropeCyborgsEmerging TechnologiesMachine LearningImperial College London
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