Issue 14, 2019

Quaternary CZTS nanoparticle decorated CeO2 as a noble metal free p–n heterojunction photocatalyst for efficient hydrogen evolution

Abstract

Practical implementation of photocatalytic hydrogen production has been required for the invention of efficient visible light absorption and low cost photocatalyst materials. n-Type metal oxides can couple with p-type semiconductors to provide p–n heterojunctions. This is one of the possible strategies to simultaneously address the visible light absorption and charge separation issues. Hence, a noble metal free quaternary Cu2ZnSnS4 (CZTS) decorated CeO2 p–n heterojunction photocatalyst has been designed and confirmed by HRTEM, Raman and XPS analysis. The growth of CZTS on the surface of CeO2 has significantly enhanced the hydrogen production performance. The optimal amount of CZTS loaded on CeO2 achieved the highest hydrogen production efficiency of 2930 μmol h−1 g−1 under visible light illumination, which is 59 times higher than that for bare CeO2. It may be due to the fact that bare CeO2 contributes to UV light absorption. Moreover CeO2 coupled with CZTS has induced visible light absorption, separation and transmission of photoinduced charge carriers. However, the PL intensity of CZTS decorated CeO2 is significantly lower than that of the bare CeO2, which clearly demonstrates that the composite impedes the rapid recombination of electron–hole pairs.

Graphical abstract: Quaternary CZTS nanoparticle decorated CeO2 as a noble metal free p–n heterojunction photocatalyst for efficient hydrogen evolution

Supplementary files

Article information

Article type
Paper
Submitted
03 Mar 2019
Accepted
24 Jun 2019
First published
24 Jun 2019

Catal. Sci. Technol., 2019,9, 3686-3696

Quaternary CZTS nanoparticle decorated CeO2 as a noble metal free p–n heterojunction photocatalyst for efficient hydrogen evolution

M. Sridharan, P. Kamaraj, Y. S. Huh, S. Devikala, M. Arthanareeswari, J. A. Selvi and E. Sundaravadivel, Catal. Sci. Technol., 2019, 9, 3686 DOI: 10.1039/C9CY00429G

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