期刊论文

Yu, Ying

英文

Chemical Engineering Journal

1385-8947

2020

385

123940

10.1016/j.cej.2019.123940

Jianqing Zhou and Yifei Li contributed equally to this work. This work was financially supported by the National Natural Science Foundation of China (Nos. 21573085 and 51872108 ), the Wuhan Planning Project of Science and Technology (No. 2018010401011294 ), self-determined research funds of Central China Normal University ( CCNU ) from the college’s basic research and operation through the Chinese Ministry of Education (No. CCNU18TS034 ), the Excellent Doctoral Dissertation Cultivation Grant from CCNU (No. 2018CXZZ120 and 2019YBZZ072 ), and the “Hua Bo” Plan of CCNU.

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Cuprous oxide (Cu2O) is known to be a promising photocatalyst for CO2 reduction into solar fuels under visible-light irradiation. However, the issues of fast recombination of photogenerated carriers and photocorrosion severely limit its photocatalytic (PC) performance. Herein, we report a unique design of one-dimensional (1D) Cu2O@Cu metal-semiconductor heterostructured nanorods via a simple in situ reduction method for efficient CO2 reduction to hydrocarbons fuels. The well-defined 1D Cu2O nanorod arrays ensure excellent visible-light harvesting capability, and the in situ fabricated Cu2O@Cu ...