A high rotational barrier for physisorbed hydrogen in an fcu-metal-organic framework

Tony Pham; Katherine A. Forrest; Peter A. Georgiev; Wiebke Lohstroh; Dong-Xu Xue; Adam Hogan; Mohamed Eddaoudi; Brian Space; Juergen Eckert

doi:10.1039/c4cc05987e

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A high rotational barrier for physisorbed hydrogen in an fcu-metal-organic framework

Journal article

Peer reviewed

A high rotational barrier for physisorbed hydrogen in an fcu-metal-organic framework

Tony Pham, Katherine A. Forrest, Peter A. Georgiev, Wiebke Lohstroh, Dong-Xu Xue, Adam Hogan, Mohamed Eddaoudi, Brian Space and Juergen Eckert

Chemical communications (Cambridge, England), Vol.50(91), pp.14109-14112

25/11/2014

DOI: https://doi.org/10.1039/c4cc05987e

PMID: 25283496

Abstract

Chemistry

Chemistry, Multidisciplinary

Physical Sciences

Science & Technology

A combined inelastic neutron scattering (INS) and theoretical study of H-2 sorption in Y-FTZB, a recently reported metal-organic framework (MOF) with fcu topology, reveals that the strongest binding site in the MOF causes a high barrier to rotation on the sorbed H-2. This rotational barrier for H-2 is the highest yet of reported MOF materials based on physisorption.

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Title: A high rotational barrier for physisorbed hydrogen in an fcu-metal-organic framework
Creators - without role: Tony Pham - University of South Florida
Katherine A. Forrest - University of South Florida
Peter A. Georgiev - University of Milan
Wiebke Lohstroh - Heinz Maier-Leibnitz Zentrum
Dong-Xu Xue - King Abdullah University of Science and Technology
Adam Hogan - University of South Florida
Mohamed Eddaoudi - University of South Florida
Brian Space - University of South Florida
Juergen Eckert - University of South Florida
Publication Details: Chemical communications (Cambridge, England), Vol.50(91), pp.14109-14112
Publisher: Royal Soc Chemistry
Number of pages: 4
Grant note: REGPOT-2011-1 / EU; European Union (EU) King Abdullah University of Science and Technology (KAUST); King Abdullah University of Science & Technology 283883 / European Commission; European Union (EU); European Commission Joint Research Centre TG-DMR090028 / XSEDE 1152362 / Division Of Chemistry; Direct For Mathematical & Physical Scien; National Science Foundation (NSF); NSF - Directorate for Mathematical & Physical Sciences (MPS) CHE-1152362 / National Science Foundation; National Science Foundation (NSF)
Identifiers: 9941019508331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article