Issue 14, 2017, Issue in Progress
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RSC Advances

Effect of tungsten surface density of WO3–ZrO2 on its catalytic performance in hydrogenolysis of cellulose to ethylene glycol

Jiachun Chai,ab   Shanhui Zhu, ORCID logo *a   Youliang Cen, ORCID logo ab   Jing Guo,ab   Jianguo Wanga  and  Weibin Fan ORCID logo *a  

* Corresponding authors

a State Key Laboratory of Coal Conversion, Institute of Coal Chemistry, Chinese Academy of Sciences, Taiyuan, Shanxi 030001, PR China
E-mail: fanwb@sxicc.ac.cn, zhushanhui@sxicc.ac.cn

b University of Chinese Academy of Sciences, Beijing 100049, PR China

Abstract

One-pot hydrogenolysis of cellulose to ethylene glycol (EG) was carried out on WO3-based catalysts combined with Ru/C. To probe the active catalytic site for breaking the C–C bond of cellulose, a series of WO3–ZrO2 (WZr) catalysts were synthesized and systematically characterized with XRD, Raman, UV-Vis, H2-TPR, DRIFS and XPS techniques and N2 physisorption experiment. It was found that the WO3 crystallites became more easily reduced to W5+–OH species with increasing crystallite size or tungsten surface density of the WZr catalyst owing to the decrease of their absorption edge energy (AEE) originating from weakening their interaction with ZrO2 support. This, as a result, gave higher EG yield at higher tungsten surface density. The structure–activity relationship of the WZr catalyst reveals that the active catalytic site for cleaving the C2–C3 bond of the glucose molecule is the W5+–OH species.

Graphical abstract: Effect of tungsten surface density of WO3–ZrO2 on its catalytic performance in hydrogenolysis of cellulose to ethylene glycol

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Article information

DOI
https://doi.org/10.1039/C6RA27524A
Article type
Paper
Submitted
29 Nov 2016
Accepted
12 Jan 2017
First published
27 Jan 2017
This article is Open Access
Creative Commons BY license

RSC Adv., 2017,7, 8567-8574

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Effect of tungsten surface density of WO3–ZrO2 on its catalytic performance in hydrogenolysis of cellulose to ethylene glycol

J. Chai, S. Zhu, Y. Cen, J. Guo, J. Wang and W. Fan, RSC Adv., 2017, 7, 8567 DOI: 10.1039/C6RA27524A

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