环境无毒半导体的发展与改性研究进展

M. I. Din, R. Khalid, Zaib Hussain
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引用次数: 11

摘要

今天,各种废水处理方法,如化学氧化、生物处理、化学沉淀、fenton技术和高级氧化工艺被用于解决水资源短缺问题。高级氧化工艺被认为适合于解决一些水问题,因为它们在有机化合物的光氧化方面具有增强的特性。最近纳米粒子介导的光氧化过程,包括氧化锌和二氧化钛半导体,构成了一种熟练、资源丰富和可持续的方法,主要用于去除地下水和废水中的酚类和芳香染料。本文综述了纳米粒子介导的在紫外区具有有效能带边的二氧化钛和氧化锌催化剂的发展。该催化介质随后被修改为在可见区域有效。在这方面,简要讨论了金属和非金属在Zn2+, Ti4+或O2-位点上的替代,以获得可见光下有效的光催化性能。重点是:(1)降解动力学;(2)影响催化光氧化的操作参数;(3)从收集的调查中得出的结论。重点介绍了近年来在酚类和染料矿化掺杂光催化剂的研究进展。
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Recent Research on Development and Modification of Nontoxic Semiconductor for Environmental Application
ABSTRACT Today various wastewater treatment methodologies such as chemical oxidation, biological treatment, chemical precipitation, fenton technology, and advanced oxidation processes are used to resolve water scarcity concerns. The advanced oxidation processes are considered to be suitable for solving some water issues due to their enhanced features in photo-oxidation of organic compounds. Recent nanoparticle-mediated photo-oxidative processes, involving zinc oxide and titanium dioxide semiconductors, constitute a proficient, resourceful, and sustainable method which is developed primarily to remove phenols and aromatic dyes from groundwaters and wastewaters. This review focuses on the evolution of nanoparticle-mediated titanium dioxide and zinc oxide catalysts with a band edge effective in the UV region. This catalytic medium has subsequently been modified to be effective in the visible region. In this regard, a brief discussion on the substitution of metals and nonmetals on Zn2+, Ti4+, or O2- sites for efficient photocatalytic performance under visible light is also emphasized. The emphasized points are: (i) degradation kinetics and (2) operating parameters affecting the catalytic photo-oxidation and (3) concluding remarks drawn from collected surveys. The recent progresses made in the production of doped photocatalysts for the mineralization of phenols and dyes are also highlighted.
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