Issue 18, 2018

A top-down synthesis of wurtzite Cu2SnS3 nanocrystals for efficient photoelectrochemical performance

Abstract

In this work, a top-down strategy to prepare metastable wurtzite Cu2SnS3 nanocrystals is reported for the first time. Wurtzite Cu2SnS3 nanocrystals with diameters of 7 ± 3 nm are synthesized by reacting Cu2O nanocubes in a tin–metal chalcogenide complex (Sn–MCC) aqueous solution. A conversion process of cubic Cu2O nanocubes monoclinic Cu7S4 nanoboxes hexagonal CuS nanoboxes wurtzite Cu2SnS3 nanoboxes wurtzite Cu2SnS3 nanocrystals is systematically investigated. It is revealed that formation of hollow nanoboxes is resulted from the Kirkendall effect while evolution from Cu2SnS3 nanoboxes to tiny Cu2SnS3 nanocrystals is due to an etching effect. Cu2SnS3 nanocrystal sensitized ZnO nanorod arrays are demonstrated as efficient photoanodes for photoelectrochemical (PEC) water splitting. Our work opens up a new door to prepare ecofriendly chalcogenide nanocrystals and for their promising applications in solar energy conversion devices.

Graphical abstract: A top-down synthesis of wurtzite Cu2SnS3 nanocrystals for efficient photoelectrochemical performance

Supplementary files

Article information

Article type
Communication
Submitted
26 Jan 2018
Accepted
03 Apr 2018
First published
11 Apr 2018

J. Mater. Chem. A, 2018,6, 8221-8226

A top-down synthesis of wurtzite Cu2SnS3 nanocrystals for efficient photoelectrochemical performance

W. Sun, Y. Ye, Y. You and J. Xu, J. Mater. Chem. A, 2018, 6, 8221 DOI: 10.1039/C8TA00851E

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