Ce-Uio-66，CAS#: 1801427-51-9

的原材料名号：UIO-66(Ce)

别的品牌：Ce-UIO-66-BDC

CAS：1801427-51-9

企业单位碳原子式C48H24O32Ce6

公司碳原子量1953.38

配位轻金属Ce

配体    对苯二甲酸（CAS：100-21-0）

孔直径     0.8nm, 1.1nm

孔容     0.5 cm3/g

比表面上BET比表明1100 m2/g

企业产品形貌    淡黄白色咖啡豆  

粒度      50-200nm 不细则顆粒

运用文献综述：

发表半个种有机的-复合架构图文件Ce-UiO-66在可降解氯代芳烃类坚持下去性巧妙空气固体废弃物(POPs)中的使用。MOF装修材料拥有大比接触面积和多孔属性，也可以最为媒介担载废合金材料酚类化合物，上升了废合金材料的减少度，因而有帮助于上升离子液体剂的生物。主生物酚类化合物为Ce,催化反应剂的比表层积为1000-1200m2/g，微小孔格局。巧妙金屬层次结构建筑材料Ce-UiO-66应该低溫崔化吸附氯代芳烃类POPs。

We synthesized a CuO/CeO2 catalyst using a copper ions encapsulated ceria metal-organic framework (MOF) Ce-UiO-66 as the precursor. The CuO/CeO2 catalysts derived by calcining the MOF precursor (the x-CuCe catalysts) showed the better activity and selectivity for the preferential CO oxidation in the H2-rich stream than the CuO/CeO2 catalyst prepared by wetness impregnation (CuCe-im). A temperature window to match the CO conversion and O2 to CO2 selectivity higher than 99.5% at the same time appeared using the x-CuCe catalysts as the catalyst. Raman and XPS results indicated that more oxygen vacancies were formed in the bulk of ceria in the x-CuCe catalysts than that in the CuCe-im catalyst, which could promote the mobility of oxygen. Our results indicated that the surface lattice oxygen and the oxygen vacancies in the bulk of ceria could enhance the catalytic performance of the CuO/CeO2 catalysts.

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