Principles of Photocatalysts and Their Different Applications: A Review

环境友好型 光催化 纳米技术 背景(考古学) 人工光合作用 生化工程 纳米材料 化学 材料科学 工程类 生态学 古生物学 生物化学 生物 催化作用
作者
Mohamed A. Hassaan,Mohamed A. El-Nemr,Marwa R. Elkatory,Safaa Ragab,Violeta‐Carolina Niculescu,Ahmed El Nemr
出处
期刊:Topics in Current Chemistry [Springer Science+Business Media]
卷期号:381 (6): 31-31 被引量:338
标识
DOI:10.1007/s41061-023-00444-7
摘要

Human existence and societal growth are both dependent on the availability of clean and fresh water. Photocatalysis is a type of artificial photosynthesis that uses environmentally friendly, long-lasting materials to address energy and environmental issues. There is currently a considerable demand for low-cost, high-performance wastewater treatment equipment. By changing the structure, size, and characteristics of nanomaterials, the use of nanotechnology in the field of water filtration has evolved dramatically. Semiconductor-assisted photocatalysis has recently advanced to become among the most promising techniques in the fields of sustainable energy generation and ecological cleanup. It is environmentally beneficial, cost-effective, and strictly linked to the zero waste discharge principle used in industrial effluent treatment. Owing to the reduction or removal of created unwanted byproducts, the green synthesis of photoactive nanomaterial is more beneficial than chemical synthesis approaches. Furthermore, unlike chemical synthesis methods, the green synthesis method does not require the use of expensive, dangerous, or poisonous ingredients, making it a less costly, easy, and environmental method for photocatalyst synthesis. This work focuses on distinct greener synthesis techniques utilized for the production of new photocatalysts, including metals, metal doped-metal oxides, metal oxides, and plasmonic nanostructures, including the application of artificial intelligence and machine learning to the design and selection of an innovative photocatalyst in the context of energy and environmental challenges. A brief overview of the industrial and environmental applications of photocatalysts is also presented. Finally, an overview and recommendations for future research are given to create photocatalytic systems with greatly improved stability and efficiency.
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