Preparation of Cerium Doped Cu/MIL-53(A1) Catalyst and Its Catalytic Activity in CO Oxidation Reaction
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2017年第1期
论文作者:谭海燕 ZHOU Yin YAN Yunfan 胡卫兵 SHI Xinyu TAN Zhidou TIAN Li ZHENG Yin
文章页码:23 - 28
摘 要:Metal-organic framework(MOF) material MIL-53(A1) with high thermal stability was prepared by a solvothermal method,serving as a support material of cerium doped copper catalyst(Ce-Cu)/MIL-53(A1) material for CO oxidation with high catalytic activity.The catalytic performance between the(CuCe)/MIL-53(A1) and the Cu/MIL-53(A1) catalytic material was compared to understand the catalytic behavior of the catalysts.The catalysts were characterized by thermogravimetric-differential scanning calorimetry(TGDSC),N2 adsorption- desorption,X-ray diffraction(XRD),and transmission electron microscopy(TEM).The characterization results showed that MIL-53(A1) had good stability and high surface areas,the(Ce-Cu)nanoparticles on the MIL-53(A1) support was uniform.Therefore,the heterogeneous catalytic composite materials(Ce-Cu)/MIL-53(A1) catalyst exhibited much higher activity than that of the Cu/MIL- 53(A1) catalyst in CO oxidation test,with 100%conversion at 80 ℃.The results reveal that(Cu-Ce)/MIL-53(A1) is the suitable candidate for achieving low temperature and higher activity CO oxidation catalyst of MOFs.
谭海燕1,ZHOU Yin2,YAN Yunfan2,胡卫兵1,SHI Xinyu1,TAN Zhidou1,TIAN Li1,ZHENG Yin1
1. School of Chemistry and Environmental Engineering, Hubei University for Nationalities2. Sustainable Energy Laboratory, Faculty of Material Science and Chemistry, China University of Geosciences
摘 要:Metal-organic framework(MOF) material MIL-53(A1) with high thermal stability was prepared by a solvothermal method,serving as a support material of cerium doped copper catalyst(Ce-Cu)/MIL-53(A1) material for CO oxidation with high catalytic activity.The catalytic performance between the(CuCe)/MIL-53(A1) and the Cu/MIL-53(A1) catalytic material was compared to understand the catalytic behavior of the catalysts.The catalysts were characterized by thermogravimetric-differential scanning calorimetry(TGDSC),N2 adsorption- desorption,X-ray diffraction(XRD),and transmission electron microscopy(TEM).The characterization results showed that MIL-53(A1) had good stability and high surface areas,the(Ce-Cu)nanoparticles on the MIL-53(A1) support was uniform.Therefore,the heterogeneous catalytic composite materials(Ce-Cu)/MIL-53(A1) catalyst exhibited much higher activity than that of the Cu/MIL- 53(A1) catalyst in CO oxidation test,with 100%conversion at 80 ℃.The results reveal that(Cu-Ce)/MIL-53(A1) is the suitable candidate for achieving low temperature and higher activity CO oxidation catalyst of MOFs.
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