High‐Pressure Raman and Calorimetry Studies of Vanadium(III) Alkyl Hydrides for Kubas‐Type Hydrogen Storage |
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| Authors: | Leah Morris Dr. Michel L. Trudeau Dr. Daniel Reed Prof. David Book Prof. David M. Antonelli |
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| Affiliation: | 1. Sustainable Environment Research Centre, University of South Wales, Pontypridd, United Kingdom;2. IREQ, Hydro Quebec, Quebec, Canada;3. School of Metallurgy and Materials, University of Birmingham, Edgbaston, Birmingham, United Kingdom |
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| Abstract: | Reversible hydrogen storage under ambient conditions has been identified as a major bottleneck in enabling a future hydrogen economy. Herein, we report an amorphous vanadium(III) alkyl hydride gel that binds hydrogen through the Kubas interaction. The material possesses a gravimetric adsorption capacity of 5.42 wt % H2 at 120 bar and 298 K reversibly at saturation with no loss of capacity after ten cycles. This corresponds to a volumetric capacity of 75.4 kgH2 m?3. Raman experiments at 100 bar confirm that Kubas binding is involved in the adsorption mechanism. The material possesses an enthalpy of H2 adsorption of +0.52 kJ mol?1 H2, as measured directly by calorimetry, and this is practical for use in a vehicles without a complex heat management system. |
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| Keywords: | hydrides hydrogen storage materials science Raman spectroscopy transition metals |
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