Heavy Metal Removal from Aqueous Effluents by TiO2 and ZnO Nanomaterials

M. H. Sosa Lissarrague, S. Alshehri, Abdullah Alsalhi, V. Lassalle, Ignacio López Corral
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引用次数: 4

Abstract

The presence of heavy metals in wastewater, such as Ni, Pb, Cd, V, Cr, and Cu, is a serious environmental problem. This kind of inorganic pollutant is not biodegradable for several years, and its harmful effect is cumulative. Recently, semiconductor nanomaterials based on metal oxides have gained interest due to their efficiency in the removal of heavy metals from contaminated water, by inducing photocatalytic ion reduction when they absorb light of the appropriate wavelength. The most commonly applied semiconductor oxides for these purposes are titanium oxide (TiO2), zinc oxide (ZnO), and binary nanomaterials composed of both types of oxides. The main purpose of this work is to critically analyse the existent literature concerning this topic focusing specially in the most important factors affecting the adsorption or photocatalytic capacities of this type of nanomaterials. In particular, photocatalytic activity is altered by various factors, such as proportion of polymorphs, synthesis method, surface area, concentration of defects and particle size, among others. After a survey of the actual literature, it was found that, although these metal oxides have low absorption capacity for visible light, it is possible to obtain an acceptable heavy metal reduction performance by sensitization with dyes, doping with metallic or nonmetallic atoms, introduction of defects, or the coupling of two or more semiconductors.
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TiO2和ZnO纳米材料去除水中重金属的研究
Ni、Pb、Cd、V、Cr、Cu等重金属在废水中的存在是一个严重的环境问题。这种无机污染物在数年内是不可生物降解的,其有害影响是累积的。最近,基于金属氧化物的半导体纳米材料在吸收适当波长的光时,通过诱导光催化离子还原,从污染水中去除重金属的效率引起了人们的兴趣。用于这些目的的最常用的半导体氧化物是氧化钛(TiO2)、氧化锌(ZnO)和由这两种氧化物组成的二元纳米材料。这项工作的主要目的是批判性地分析有关这一主题的现有文献,特别是关注影响这类纳米材料的吸附或光催化能力的最重要因素。特别是,光催化活性受到各种因素的影响,如多晶的比例、合成方法、表面积、缺陷浓度和粒径等。在查阅实际文献后发现,虽然这些金属氧化物对可见光的吸收能力较低,但通过染料敏化、金属或非金属原子掺杂、引入缺陷或两个或多个半导体的耦合,都有可能获得可接受的重金属还原性能。
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