Session L30: Focus Session: Hydrogen Storage II -- Complex Hydrides

2:30 PM–5:18 PM, Tuesday, March 16, 2010
Room: D139

Chair: Jan Herbst, General Motors

Abstract ID: BAPS.2010.MAR.L30.4

Abstract: L30.00004 : Predicting new multicomponent materials for hydrogen storage using first-principles calculations

3:30 PM–3:42 PM

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Authors:

Dilpuneet Aidhy
(Northwestern University)

Chris Wolverton
(Northwestern University)

Wide research has unraveled some very promising hydrogen storage materials such as metal borohydrides, amides and alanates. However, all of these materials are limited either thermodynamically or kinetically. The recent observation of mixing in these systems (e.g., borohydride-amide mixing in Li$_{4}$(BH$_{4})$(NH$_{2})_{3}$ [1] and metal mixing in NaZn$_{2}$(BH$_{4})_{3})$ [2] has demonstrated the possibility of forming new multicomponent ordered compounds that may have desirable hydrogen storage properties. However, these multicomponent systems are largely unexplored. Here, we use density functional theory (DFT) along with Monte Carlo-based crystal structure prediction methods to search for new multicomponent hydrides. We find evidence for stable compounds in the Mg(BH$_{4})_{2}$/Mg(NH$_{2})_{2}$ system, which have not yet been observed. In addition, we also study a wide range of mixed metal borohydride systems, and find evidence of ordered stable structures such as Li$_{2}$Na(BH$_{4})_{3}$. 1. F. E. Pinkerton, M. S. Meyer, G. P. Meisner and M. P. Balogh, J. Phys. Chem. B 110, 7967 (2006). 2. D. Ravnsbeak, Y. Filinchuk, Y. Cerenius, H. J. Jakobsen, F. Besenbacher, J. Skibsted and T. R. Jensen, Angew. Chem. 48, 6659 (2009).

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.MAR.L30.4