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Modified Impregnation Synthesis of Fe-loaded WO3 Nanosheets and the Gas-sensing Properties

In the present study, flake WO3 nanosheets were prepared by a simple acidification method, and the surface of nanosheets was catalytically decorated with Fe via a modified impregnation procedure. The structure and morphology of the nanosheets were characterized by X-ray diffraction, SEM, and TEM. Th...

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Published in:	Chemistry letters 2017, Vol.46 (9), p.1353-1356
Main Authors:	Zeng, Yan, Zhongqiu Hua, Tian, Xuemin, Li, Yan, Qiu, Zhilei, Wang, Tianci
Format:	Article
Language:	eng ; jpn
Subjects:	Acidification Iron Nanosheets Tungsten oxides
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creator	Zeng, Yan Zhongqiu Hua Tian, Xuemin Li, Yan Qiu, Zhilei Wang, Tianci
description	In the present study, flake WO3 nanosheets were prepared by a simple acidification method, and the surface of nanosheets was catalytically decorated with Fe via a modified impregnation procedure. The structure and morphology of the nanosheets were characterized by X-ray diffraction, SEM, and TEM. The results indicated that the WO3 nanosheets are highly irregular with a small thickness of 10–20 nm, and the Fe nanoparticles were found to be distributed on the surface of WO3. In addition, the sensing properties of WO3 and Fe-loaded WO3 were also investigated. It was revealed that the surface catalytic modification of Fe could significantly promote the sensing ability of WO3 nanosheets. In particular, Fe-WO3 nanosheets showed an excellent response to acetone, even down to 1 ppm.
doi_str_mv	10.1246/cl.170555
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subjects	Acidification Iron Nanosheets Tungsten oxides
title	Modified Impregnation Synthesis of Fe-loaded WO3 Nanosheets and the Gas-sensing Properties
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