Materials Research Lecture
Spalding Laboratory 106 (Hartley Memorial Seminar Room)
Computational Discovery of Novel Hydrogen Storage Materials and Reactions
Chris Wolverton,
Department of Materials Science and Engineering,
Northwestern University,
Practical hydrogen storage for mobile applications requires materials that exhibit high hydrogen densities, low decomposition temperatures, and fast kinetics for absorption and desorption. Unfortunately, no reversible materials are currently known that possess all of these attributes. Here we present an overview of our recent efforts aimed at developing a first-principles computational approach to the discovery of novel hydrogen storage materials. We have developed computational tools which enable accurate prediction of decomposition thermodynamics, crystal structures for unknown hydrides, and thermodynamically preferred decomposition pathways. We present examples that illustrate each of these three capabilities. Specifically, we focus on recent work on crystal structure and dehydriding reactions of (i) borohydride materials, such as Ca(BH4)2 and Mg(BH4)2, (ii) amidoboranes and their decomposition products, and (iii) mixtures of complex hydrides.
For more information, please contact Christy Jenstad by phone at 8124 or by email at [email protected].
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Materials Research Lecture Series
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