Redox active aluminium(III) complexes convert CO2 into MgCO3 or CaCO3 in a synthetic cycle using Mg or Ca metal

Thomas W. Myers; Louise A. Berben

doi:10.1039/C2CC37208H

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Redox active aluminium(iii) complexes convert CO₂ into MgCO₃ or CaCO₃ in a synthetic cycle using Mg or Ca metal†‡

Thomas W. Myers^a and Louise A. Berben*^a

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^a Department of Chemistry, University of California, Davis, USA
E-mail: laberben@ucdavis.edu
Tel: +1 530 752-8475

Abstract

Redox-active Group 13 molecules possess the unusual combination of concomitant redox and acid–base reactivity. These combined properties enable regeneration of a metal hydroxide complex in a cycle for conversion of CO₂ into carbonate salts. Reaction of (IP⁻)₂Al(OH) (M = Al, Ga) with 1 atm of CO₂ affords [(IP⁻)₂Al]₂(μ²κ¹:κ²-OCO₂). Subsequent reduction affords MgCO₃ or CaCO₃ and two equivalents of [(IP²⁻)₂Al]⁻, which can be reoxidized to (IP⁻)₂Al(OH) to close a cycle.

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Article information

DOI: https://doi.org/10.1039/C2CC37208H
Article type: Communication
Submitted: 03 okt 2012
Accepted: 09 nov 2012
First published: 23 nov 2012

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Chem. Commun., 2013,49, 4175-4177

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Redox active aluminium(III) complexes convert CO₂ into MgCO₃ or CaCO₃ in a synthetic cycle using Mg or Ca metal

T. W. Myers and L. A. Berben, Chem. Commun., 2013, 49, 4175 DOI: 10.1039/C2CC37208H

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