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Hollow mesoporous silica supported PtIr bimetal catalysts for selective hydrogenation of phenol: significant promotion effect of iridium
Zheng, Yuying ; He, Peishan ; Fang, Yanxiong ; Yang, Xu ; Liang, Huagen
2017
Source PublicationRSC ADVANCES
Volume7Pages:31582-31587
Other AbstractSelective hydrogenation of phenol is of great significant for the production of Nylon 6. Herein, highly efficient and stable Ir promoted Pt catalysts for the hydrogenation of phenol are prepared by deposition of Pt-Ir nanoparticles onto hollow mesoporous silica spheres (HMSs) through a facile wet-impregnation and H-2 reduction method. The obtained PtIr/HMS catalyst with Ir/Pt molar ratio of 0.1 shows a highest hydrogenation rate of 4255 mmol h(-1) gPt(-1) with cyclohexanone selectivity of 85% at 50 degrees C and 0.5 MPa of pH(2), which is 3 times and 8.6 times higher than that of the mono Pt/HMS catalyst and commercial Pt catalyst, respectively. The trace addition of Ir promoter essentially contributes to the enhanced hydrogenation activity by improving the metal dispersion of Pt nanoparticles and promoting the charge transfer between the Pt and Ir. This work provides an effective protocol in developing high performance catalysts for phenol hydrogenation under mild reaction conditions.
Document Type期刊论文
Identifierhttp://ir.giec.ac.cn/handle/344007/16750
Collection中国科学院广州能源研究所
Recommended Citation
GB/T 7714		 Zheng, Yuying,He, Peishan,Fang, Yanxiong,et al. Hollow mesoporous silica supported PtIr bimetal catalysts for selective hydrogenation of phenol: significant promotion effect of iridium[J]. RSC ADVANCES,2017,7:31582-31587.
APA Zheng, Yuying,He, Peishan,Fang, Yanxiong,Yang, Xu,&Liang, Huagen.(2017).Hollow mesoporous silica supported PtIr bimetal catalysts for selective hydrogenation of phenol: significant promotion effect of iridium.RSC ADVANCES,7,31582-31587.
MLA Zheng, Yuying,et al."Hollow mesoporous silica supported PtIr bimetal catalysts for selective hydrogenation of phenol: significant promotion effect of iridium".RSC ADVANCES 7(2017):31582-31587.
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