Control of framework interpenetration for in situ modified hydroxyl functionalised IRMOFs

Damien Rankine; Antonio Avellaneda; Matthew R. Hill; Christian J. Doonan; Christopher J. Sumby

doi:10.1039/C2CC35565E

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Chemical Communications

Issue 83, 2012

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Control of framework interpenetration for in situ modified hydroxyl functionalised IRMOFs

Damien Rankine,^a Antonio Avellaneda,^a Matthew R. Hill,^b Christian J. Doonan*^a and Christopher J. Sumby*^a

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School of Chemistry & Physics, The University of Adelaide, Adelaide, Australia
E-mail: christian.doonan@adelaide.edu.au ;
Fax: +61 8 8303 4358 ;
Tel: +61 8 8303 5770

CSIRO Materials Science and Engineering, Clayton, Australia

Chem. Commun., 2012,48, 10328-10330

DOI: 10.1039/C2CC35565E
Received 01 Aug 2012, Accepted 31 Aug 2012
First published online 31 Aug 2012

This article is part of themed collection: Metal-organic frameworks

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Abstract
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By intimate control of reaction conditions, phase-pure crystalline porous metal–organic framework materials [Zn₄O(L)₃] with interpenetrated and non-interpenetrated structures can be synthesised. Under certain conditions, these reactions occur with concomitant deprotection of masked alcohols located on the organic links which yield accessible ‘metal-binding’ functional groups within the frameworks.

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Damien Rankine
Antonio Avellaneda
Matthew R. Hill
Christian J. Doonan
Christopher J. Sumby

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Chemical Communications

Control of framework interpenetration for in situ modified hydroxyl functionalised IRMOFs

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