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A computational and experimental approach linking disorder, high-pressure behavior, and mechanical properties in UiO frameworks - Deleted

DOI: 10.1002/ange.201509352 DOI Help

Authors: Claire Hobday (University of Edinburgh) , Ross James Marshall (University of Glasgow) , Colin F. Murphie (University of Glasgow) , Jorge Sotelo (University of Edinburgh) , Tom Richards (University of Cambridge) , Dave Allan (Diamond Light Source) , Tina Düren (University of Bath) , François- Xavier Coudert (Chimie ParisTech, PSL Research University, CNRS) , Ross Forgan (University of Glasgow) , Carole A. Morrison (University of Edinburgh) , Stephen Moggach (University of Edinburgh) , Thomas Bennett (University of Cambridge)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Angewandte Chemie , VOL 128 (7) , PAGES 2447 - 2451

State: Published (Approved)
Published: February 2016

Abstract: Whilst many metal–organic frameworks possess the chemical stability needed to be used as functional materials, they often lack the physical strength required for industrial applications. Herein, we have investigated the mechanical properties of two UiO-topology Zr-MOFs, the planar UiO-67 ([Zr6O4(OH)4(bpdc)6], bpdc: 4,4′-biphenyl dicarboxylate) and UiO-abdc ([Zr6O4(OH)4(abdc)6], abdc: 4,4′-azobenzene dicarboxylate) by single-crystal nanoindentation, high-pressure X-ray diffraction, density functional theory calculations, and first-principles molecular dynamics. On increasing pressure, both UiO-67 and UiO-abdc were found to be incompressible when filled with methanol molecules within a diamond anvil cell. Stabilization in both cases is attributed to dynamical linker disorder. The diazo-linker of UiO-abdc possesses local site disorder, which, in conjunction with its longer nature, also decreases the capacity of the framework to compress and stabilizes it against direct compression, compared to UiO-67, characterized by a large elastic modulus. The use of non-linear linkers in the synthesis of UiO-MOFs therefore creates MOFs that have more rigid mechanical properties over a larger pressure range.

Subject Areas: Chemistry


Instruments: I19-Small Molecule Single Crystal Diffraction

Added On: 02/03/2016 12:21

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Angewandte Chemie - 2016 - Hobday - A Computational and Experimental Approach Linking Disorder High%E2%80%90Pressure Behavior and.pdf

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