Multifunctional MOFs through CO<sub>2</sub>fixation: a metamagnetic kagome lattice with uniaxial zero thermal expansion and reversible guest sorption

Keene, Tony D.; Murphy, Michael J.; Price, Jason R.; Sciortino, Natasha F.; Southon, Peter D.; Kepert, Cameron J.

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Royal Society of Chemistry, Dalton Transactions, 39(43), p. 14766-14771

DOI: 10.1039/c4dt02205j

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Multifunctional MOFs through CO<sub>2</sub>fixation: a metamagnetic kagome lattice with uniaxial zero thermal expansion and reversible guest sorption

Journal article published in 2014 by Tony D. Keene, Michael J. Murphy, Jason R. Price

, Natasha F. Sciortino, Peter D. Southon

, Cameron J. Kepert

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Abstract

The properties of atmospheric CO2 fixation, metamagnetism, reversible guest adsorption and zero thermal expansion have been combined in a single robust MOF, [Cu3(bpac)3(CO3)2](ClO4)2·H2O (·H2O). This compound is a ditopically-bridged copper carbonate kagome lattice where desolvation of the MOF allows subtle tuning of the metamagnetic and uniaxial ZTE behaviour.

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Multifunctional MOFs through CO<sub>2</sub>fixation: a metamagnetic kagome lattice with uniaxial zero thermal expansion and reversible guest sorption

Abstract