Interfacial charge separation in Cu2O/RuOx as a visible light driven CO2 reduction catalyst

Ernest Pastor; Federico M. Pesci; Anna Reynal; Albertus D. Handoko; Mingjia Guo; Xiaoqiang An; Alexander J. Cowan; David R. Klug; James R. Durrant; Junwang Tang

doi:10.1039/C4CP00102H

Interfacial charge separation in Cu₂O/RuO_x as a visible light driven CO₂ reduction catalyst†

Ernest Pastor,^a Federico M. Pesci,^a Anna Reynal,*^a Albertus D. Handoko,‡^b Mingjia Guo,^b Xiaoqiang An,^b Alexander J. Cowan,§^a David R. Klug,^a James R. Durrant^a and Junwang Tang*^b

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^a Department of Chemistry, Imperial College London, Exhibition Road, London, UK
E-mail: a.reynal@imperial.ac.uk

^b Department of Chemical Engineering, University College London, Torrington Place, London WC1E 7JE, UK
E-mail: junwang.tang@ucl.ac.uk

Abstract

We employ transient absorption spectroscopy to record the absorption spectrum of photogenerated charge carriers in Cu₂O. We have found that CO₂ reduction in Cu₂O is limited by fast electron–hole recombination. The deposition of RuO_x nanoparticles on Cu₂O results in a twofold increased yield of long-lived electrons, indicating partially reduced electron–hole recombination losses. This observation correlates with an approximately sixfold increase in the yield of CO₂ reduction to CO.

Physical Chemistry Chemical Physics

Interfacial charge separation in Cu₂O/RuO_x as a visible light driven CO₂ reduction catalyst†

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Physical Chemistry Chemical Physics