Templated synthesis of crystalline mesoporous CeO_(2) with organosilane-containing polymers: balancing porosity, crystallinity and catalytic activity  

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作  者:Qiang Luo Zichao Wei Hanyi Duan Lei Jin Rumasha N T Kankanamage Seth Shuster Steven L Suib James F Rusling Jie He 

机构地区:[1]Department of Chemistry,University of Connecticut,Storrs,CT 06269,United States of America [2]Polymer Program,University of Connecticut,Storrs,CT 06269,United States of America [3]Institute of Materials Science,University of Connecticut,Storrs,CT 06269,United States of America [4]Department of Surgery and Neag Cancer Center,UConn Health,Farmington,CT 06232,United States of America [5]School of Chemistry,National University of Ireland Galway,Galway,Ireland

出  处:《Materials Futures》2022年第2期163-173,共11页材料展望(英文)

基  金:J H is grateful for the financial support from National Science Foundation(CEBT-1705566);The HR-TEM studies were performed using the facilities in the UConn Thermo Fisher Scientific Center for Advanced Microscopy and Materials Analysis(CAMMA).Low-magnification TEM and SEM images were obtained at the Biosciences Electron Microscopy Facility at the University of Connecticut;This work was also partially supported by the Green Emulsions Micelles and Surfactants(GEMS)Center of the University of Connecticut.

摘  要:We report the synthesis of ordered mesoporous ceria(mCeO_(2))with highly crystallinity and thermal stability using hybrid polymer templates consisting of organosilanes.Those organosilane-containing polymers can convert into silica-like nanostructures that further serve as thermally stable and mechanically strong templates to prevent the collapse of mesoporous frameworks during thermal-induced crystallization.Using a simple evaporation-induced self-assembly process,control of the interaction between templates and metal precursors allows the co-self-assembly of polymer micelles and Ce^(3+)ions to form uniform porous structures.The porosity is well-retained after calcination up to 900℃.After the thermal engineering at 700℃ for 12 h(mCeO_(2)-700-12 h),mCeO_(2) still has a specific surface area of 96 m^(2) g^(−1) with a pore size of 14 nm.mCeO_(2) is demonstrated to be active for electrochemical oxidation of sulfite.mCeO_(2)-700-12 h with a perfect balance of crystallinity and porosity shows the fastest intrinsic activity that is about 84 times more active than bulk CeO_(2) and 5 times more active than mCeO_(2) that has a lower crystallinity.

关 键 词:mesoporous materials cerium oxides crystalline oxides ELECTROCATALYSIS sulfite oxidation 

分 类 号:O61[理学—无机化学]

 

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