用于库巴斯型储氢的烷基氢化钒(III)的高压拉曼光谱和量热研究。

High-Pressure Raman and Calorimetry Studies of Vanadium(III) Alkyl Hydrides for Kubas-Type Hydrogen Storage.

作者信息

Morris Leah, Trudeau Michel L, Reed Daniel, Book David, Antonelli David M

机构信息

Sustainable Environment Research Centre, University of South Wales, Pontypridd, CF37 4BD, United Kingdom.

IREQ, Hydro Quebec, 1800 Boul. Lionel-Boulet, Varennes, Quebec, J3X 1S1, Canada.

出版信息

Chemphyschem. 2016 Mar 16;17(6):822-8. doi: 10.1002/cphc.201501093. Epub 2016 Jan 20.

DOI:10.1002/cphc.201501093

PMID:26762590

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.

摘要

在环境条件下实现可逆储氢已被视为未来氢能经济发展的一个主要瓶颈。在此，我们报道了一种通过库巴斯相互作用结合氢的非晶态氢化烷基钒(III)凝胶。该材料在120巴和298K下的重量吸附容量为5.42 wt % H₂，在饱和状态下可逆，经过十次循环后容量无损失。这相当于75.4 kgH₂ m⁻³的体积容量。在100巴下的拉曼实验证实，库巴斯键合参与了吸附机制。通过量热法直接测量，该材料的H₂吸附焓为+0.52 kJ mol⁻¹ H₂，这对于无需复杂热管理系统的车辆使用来说是切实可行的。

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用于库巴斯型储氢的烷基氢化钒(III)的高压拉曼光谱和量热研究。

High-Pressure Raman and Calorimetry Studies of Vanadium(III) Alkyl Hydrides for Kubas-Type Hydrogen Storage.

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