An Inexpensive, Widely Available Material for 4 wt % Reversible Hydrogen Storage Near Room Temperature

Creators: Pascal, Tod A.; Boxe, Christopher; Goddard, William A., III

Abstract

The search for cheap, renewable energy sources to replace fossil fuels has identified hydrogen gas (H_2) as the most promising, particularly for transportation. However, despite intense research efforts to find reliable storage materials, current practical technologies store only 1.3 wt % H_2 at 270 K, far short of the U.S. DOE targets. We report that hexagonal ice, the ordinary form of ice in snow, may be an efficient hydrogen storage material, achieving 3.8 wt % H_2 storage and 42 g L^(–1) at 150K and that after loading at 150 K, the 3.8 wt % H_2 can be kept at 270 K and then released upon heating by a few degrees Kelvin. This leads us to propose the ice-fixed melt-triggered (IFMT) strategy for hydrogen storage and utilization with ice as the median.

Additional Information

© 2011 American Chemical Society. Received: April 4, 2011 Accepted: May 24, 2011. Publication Date (Web): May 24, 2011. The authors thank Jose Mendoza (Caltech) and Sang Soo Han (KRISS, Korea) for providing data on H2 storage in MOFs prior to-publication. This project was partially supported by grants to Caltech from the Department of Energy (DE-PS36-08GO 98004P). It was also supported by the WCU program (31-2008-000-10055-0) through the National Research Foundation of Korea with the generous allocation of computing time from the KISTI supercomputing center. T.A.P. thanks the U.S. Department of Energy CSGF and the National Science Foundation for graduate fellowships.

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