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

Leah Morris; Michel L. Trudeau; Daniel Reed; David Book; David M. Antonelli

doi:10.1002/cphc.201600116

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

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

Research output: Contribution to journal › Article › peer-review

Abstract

The front cover artwork is provided by David Antonellis materials chemistry group at the University of South Wales. The image shows the binding of H-2 via the Kubas interaction on amorphous vanadium hydride frameworks. The material stores 5.4wt% H-2 reversibly, and surprisingly the calorimetry measurements shown below the central image demonstrate that the overall process is thermodynamically neutral. Read the full text of the Full Paper at 10.1002/cphc.201501093

Original language	English
Pages (from-to)	780-780
Number of pages	1
Journal	Chemphyschem
Volume	17
Issue number	6
DOIs	https://doi.org/10.1002/cphc.201600116
Publication status	Published - 16 Mar 2016

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10.1002/cphc.201600116Licence: CC BY-NC-ND

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title = "High-Pressure Raman and Calorimetry Studies of Vanadium(III) Alkyl Hydrides for Kubas-Type Hydrogen Storage",

abstract = "The front cover artwork is provided by David Antonellis materials chemistry group at the University of South Wales. The image shows the binding of H-2 via the Kubas interaction on amorphous vanadium hydride frameworks. The material stores 5.4wt% H-2 reversibly, and surprisingly the calorimetry measurements shown below the central image demonstrate that the overall process is thermodynamically neutral. Read the full text of the Full Paper at 10.1002/cphc.201501093",

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AU - Antonelli, David M.

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AB - The front cover artwork is provided by David Antonellis materials chemistry group at the University of South Wales. The image shows the binding of H-2 via the Kubas interaction on amorphous vanadium hydride frameworks. The material stores 5.4wt% H-2 reversibly, and surprisingly the calorimetry measurements shown below the central image demonstrate that the overall process is thermodynamically neutral. Read the full text of the Full Paper at 10.1002/cphc.201501093

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

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