A Sinter-Resistant Catalytic System Fabricated by Maneuvering the Selectivity of SiO<sub>2</sub> Deposition onto the TiO<sub>2</sub> Surface versus the Pt Nanoparticle Surface — Ping Lü (2013) | RDL Network
A Sinter-Resistant Catalytic System Fabricated by Maneuvering the Selectivity of SiO<sub>2</sub> Deposition onto the TiO<sub>2</sub> Surface versus the Pt Nanoparticle Surface
A triphasic catalytic system (Pt/TiO2-SiO2) with an "islands in the sea" configuration was fabricated by controlling the selectivity of SiO2 deposition onto the surface of TiO2 versus the surface of Pt nanoparticles. The Pt surface was exposed, while the nanoparticles were supported on TiO2 and isolated from each other by SiO2 to achieve both significantly improved sinter resistance up to 700 °C and outstanding activity after high-temperature calcination. This work not only demonstrates the feasibility of using a new triphasic system with uncovered catalyst to maximize the thermal stability and catalytic activity but also offers a general approach to the synthesis of high-performance catalytic systems with tunable compositions.
Yunqian Dai, Byungkwon Lim, Yong Yang, Claire M. Cobley, Weiyang Li, Eun Chul Cho, Benjamin Grayson, Paul T. Fanson, Charles T. Campbell, Yueming Sun, Younan Xia
Yunqian Dai, Byungkwon Lim, Yong Yang, Claire M. Cobley, Weiyang Li, Eun Chul Cho, Benjamin Grayson, Paul T. Fanson, Charles T. Campbell, Yueming Sun, Younan Xia
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