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Construction of All-Solid-State Z–scheme Photocatalyst Based on Graphite Carbon Nitride and Its Enhancement to Catalytic Activity

Abstract

Photocatalysis is a promising technology that can contribute to energy conversion and environmental remediation. Nowadays, the major focus in photocatalysis is the fabrication and development of photocatalytic materials. Graphitic carbon nitride (g-C3N4) has attracted intensive attention because of its low cost, facile in preparation, high chemical stability, and non-toxicity. However, it is difficult for pristine g-C3N4 to simultaneously own wide absorption range, high stability, efficient charge separation and strong redox ability, which limits its practical applications. In this review, an artificial g-C3N4-based Z-scheme photocatalyst, simulating the natural photosynthesis, has been summarized and thorough discussed in terms of the design, preparation, and applications. Particularly, the all-solid-state g-C3N4-based Z-scheme systems without reversible redox mediators have been extensively applied in the water splitting, CO2 conversion, and pollutants degradation. Typically, metal oxides, metal sulfides, bismuth–based photocatalytic semiconductors and silver–based photocatalytic semiconductors have been explored for the design of Z-scheme system with g-C3N4 to enhance the photocatalytic activity by widening the light absorption, facilitating the charge separation, promoting the redox ability and prolonging the charge carrier lifetime. The challenges and prospects for the design and application of g-C3N4-based Z-scheme photocatalysts are also proposed.

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Publication details

The article was received on 02 Nov 2017, accepted on 08 Jan 2018 and first published on 08 Jan 2018


Article type: Tutorial Review
DOI: 10.1039/C7EN01031A
Citation: Environ. Sci.: Nano, 2018, Accepted Manuscript
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    Construction of All-Solid-State Z–scheme Photocatalyst Based on Graphite Carbon Nitride and Its Enhancement to Catalytic Activity

    L. Jiang, X. Yuan, G. Zeng, J. Liang, Z. Wu and H. Wang, Environ. Sci.: Nano, 2018, Accepted Manuscript , DOI: 10.1039/C7EN01031A

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