基于石墨氮化碳(g-C3N4)的抗生素和染料降解及制氢复合材料综述

Saddam Husein, Slamet, Eniya Listiani Dewi
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摘要

本文综述了利用氮化石墨(g-C3N4)基复合光催化剂降解抗生素、染料和制氢的最新进展。报告还讨论了特定主题的结构、合成、改性、形态、掺杂、制备和应用,并评估了不同形态和制备工艺的优缺点。基于 g-C3N4 复合材料的光催化剂已显示出巨大的潜力。为了提高 g-C3N4 光催化降解污染物的效率,人们对其进行了各种新型结构和形态的改性和定制。掺杂、金属沉积、异质结形成和结构调整等技术提高了 g-C3N4 的光吸收率、电荷转移率和电荷分离率。从而提高了抗生素、染料降解和制氢的光催化性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A review on graphite carbon nitride (g-C3N4)-based composite for antibiotics and dye degradation and hydrogen production

A review on graphite carbon nitride (g-C3N4)-based composite for antibiotics and dye degradation and hydrogen production

This paper reviews recent advances in the use of graphite carbon nitride (g-C3N4)-based composite photocatalysts for antibiotic and dye degradation and hydrogen production. It also discusses the structure, synthesis, modification, morphology, doping, preparation, and application of a particular subject and evaluates the advantages and disadvantages of different morphologies and preparation processes. The photocatalysts based on g-C3N4-based composites have demonstrated great potential. The g-C3N4 has been modified and tailored into various novel structures and morphologies to improve its efficiency in the photocatalytic degradation of pollutants. The techniques such as doping, metal deposition, heterojunction formation, and structural tuning enhance the rate of light absorption, charge transfer, and charge separation of g-C3N4. This leads to improved photocatalytic performance for antibiotic and dye degradation and hydrogen production.

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