Is g-C3N4 more suitable for photocatalytic reduction or oxidation in environmental applications?

Environmental Functional Materials Pub Date : 2022-03-01 DOI:10.1016/j.efmat.2022.05.003

Qiaohong Zhu , Jinlong Zhang

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引用次数: 12

Abstract

Graphitic carbon nitride (g-C₃N₄), as an efficient semiconductor photocatalyst with an excellent tunable bandgap, a high physicochemical stability and a proper optical performance, has shown its non-negligible potential in multifarious photocatalytic reactions, such as hydrogen (H₂) evolution, carbon dioxide (CO₂) reduction, hydrogen peroxide (H₂O₂) production, pollutants degradation and so on. However, considering the solar light transfer efficiency, the accurate reaction mechanisms as well as the limitations of various reactions, is g-C₃N₄ more suitable for reduction or oxidation reactions? In this perspective, we think g-C₃N₄ might be more suitable for photocatalytic reduction reactions since the performances of single oxidation reactions maybe not ideal and sometimes the electrons are still essential during such a process.

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g-C3N4是否更适合于环境应用中的光催化还原或氧化？

石墨碳氮化物（g-C3N4）作为一种高效的半导体光催化剂，具有优异的可调带隙、高的物理化学稳定性和适当的光学性能，在析氢、还原二氧化碳、产生过氧化氢、降解污染物等多种光催化反应中显示出不可忽视的潜力。然而，考虑到太阳光的传输效率、准确的反应机理以及各种反应的局限性，g-C3N4更适合于还原反应还是氧化反应？从这个角度来看，我们认为g-C3N4可能更适合于光催化还原反应，因为单次氧化反应的性能可能并不理想，而且在这样的过程中，有时电子仍然是必不可少的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Environmental Functional Materials

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