Metal-organic framework materials as nano photocatalyst

IF 1.2 Q4 NANOSCIENCE & NANOTECHNOLOGY international journal of nano dimension Pub Date : 2016-01-01 DOI:10.7508/IJND.2016.01.001
A. Majedi, F. Davar, A. Abbasi
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引用次数: 16

Abstract

Photocatalytic degradation of toxic organic compound in water, soil and air by semiconductor catalysts such as TiO2 and ZnO have received much attention over the last two decades. However, the low quantum yield, easy agglomeration and difficult post-separation of these inorganic catalysts limit their application for large-scale applications. Metal-organic frameworks (MOFs) are the latest class of ordered porous solids that being intensively studied as a novel class of hybrid inorganic–organic material with ultrahigh porosity, enormous internal surface areas, together with the extraordinary tailorability of structure, dimension, size and shape. Recently exploring performance of MOFs as a new nanophotocatalyst is attracting interest of researchers working on the fields of chemistry, chemical engineering, materials science and others. Although the photocatytic application of MOF materials is still at the early stage compared with the other applications of them such as gas storage, separation, biomedical application and heterogeneous catalysis, the currently available results have demonstrated that the design and construction of MOFs for photocatalyst functionality is very active. The present review aims to introduce MOF materials, the synthesized methods and highlights the progress attempts for using them as a nanophotocatalyst for degradation of pollutants.
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金属有机骨架材料作为纳米光催化剂
二氧化钛和氧化锌等半导体催化剂在光催化下降解水、土壤和空气中的有毒有机化合物受到了近二十年来的广泛关注。然而,这些无机催化剂的量子产率低、易团聚、后分离困难等缺点限制了它们的大规模应用。金属有机骨架(mof)是一类最新的有序多孔固体,作为一类新型的无机-有机杂化材料,它具有超高孔隙率、巨大的内表面积,以及非凡的结构、尺寸、尺寸和形状的可定制性。近年来,探索mof作为一种新型纳米光催化剂的性能引起了化学、化学工程、材料科学等领域研究人员的兴趣。尽管与气体储存、分离、生物医学和多相催化等其他应用相比,MOF材料的光催化应用仍处于早期阶段,但目前已有的结果表明,MOF材料的光催化功能的设计和构建是非常活跃的。本文介绍了纳米光催化剂材料及其合成方法,并着重介绍了将其作为降解污染物的纳米光催化剂的研究进展。
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来源期刊
international journal of nano dimension
international journal of nano dimension NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
2.80
自引率
20.00%
发文量
0
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