A Molecular CO<sub>2</sub> Reduction Catalyst Based on Giant Polyoxometalate {Mo<sub>368</sub>}.

Das, Santu; Balaraju, Tuniki; Barman, Soumitra; Sreejith, S S; Pochamoni, Ramudu; Roy, Soumyajit

A Molecular CO₂ Reduction Catalyst Based on Giant Polyoxometalate {Mo₃₆₈}.

Das, Santu; Balaraju, Tuniki; Barman, Soumitra; Sreejith, S S; Pochamoni, Ramudu; Roy, Soumyajit.

Afiliação

Das S; Eco-Friendly Applied Materials Laboratory, College of Chemistry, Central China Normal University, Wuhan, China.
Balaraju T; Eco-Friendly Applied Materials Laboratory, Department of Chemical Sciences, Materials Science Centre, Mohanpur, Indian Institute of Science Education & Research, Kolkata, India.
Barman S; Eco-Friendly Applied Materials Laboratory, College of Chemistry, Central China Normal University, Wuhan, China.
Sreejith SS; Eco-Friendly Applied Materials Laboratory, Department of Chemical Sciences, Materials Science Centre, Mohanpur, Indian Institute of Science Education & Research, Kolkata, India.
Pochamoni R; Eco-Friendly Applied Materials Laboratory, College of Chemistry, Central China Normal University, Wuhan, China.
Roy S; Eco-Friendly Applied Materials Laboratory, Department of Chemical Sciences, Materials Science Centre, Mohanpur, Indian Institute of Science Education & Research, Kolkata, India.

Front Chem ; 6: 514, 2018.

Article em En | MEDLINE | ID: mdl-30450356

ABSTRACT

ABSTRACT

Photocatalytic CO2 reduction in water is one of the most attractive research pursuits of our time. In this article we report a giant polyoxometalate {Mo368} based homogeneous catalytic system, which efficiently reduces CO2 to formic acid with a maximum turnover number (TON) of 27,666, turnover frequency (TOF) of 4,611 h-1 and external quantum efficiency of the reaction is 0.6%. The catalytic system oxidizes water and releases electrons, and these electrons are further utilized for the reduction of CO2 to formic acid. A maximum of 8.3 mmol of formic acid was observed with the loading of 0.3 µmol of the catalyst. Our catalyst material is also stable throughout the reaction. The starting materials for this experiment are CO2 and H2O and the end products are HCOOH and O2. The formic acid formed in this reaction is an important H2 gas carrier and thus significant in renewable energy research.

Palavras-chave

CO2 reduction; homogeneous catalysis; photochemistry; polyoxometalate; water oxidation

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Texto completo: 1 Bases de dados: MEDLINE Idioma: En Revista: Front Chem Ano de publicação: 2018 Tipo de documento: Article País de afiliação: China