New computational approach predicts chemical reactions at hi

New York, NY—December 1, 2021— Extracting metals from oxides at high temperatures is essential not only for producing metals such as steel but also

Related Keywords

New York , United States , Australia , Columbia University , Netherlands , Utrecht , Columbia Center , Australian , Josea Garrido Torres , Nick Birbilis , Nongnuch Artrith , Garrido Torres , Vahe Gharakhanyan , A Garrido Torres , Nature Communications , Division Of Science Technology , Department Of Chemical Engineering , York State Empire Development , Department Of Applied Physics , National Science Foundation Under Grant No , Columbia Electrochemical Energy Center , Utrecht University , Research Facility Improvement Grant , Debye Institute For Nanomaterials Science , Columbia University Shared Research Computing Facility , Columbia Engineering , Alexander Urban , Deputy Dean , Australian National University College , Computer Science , Chemical Engineering , Applied Physics , Applied Mathematics , Materials Chemistry , Debye Institute , Nanomaterials Science , Computational Electrochemistry , National Science Foundation , Data Revolution , Shared Research Computing Facility , Facility Improvement Grant , New York State Empire Development , Science Technology ,