用超高真空红外谱研究单晶TiO2(110)表面光催化机理

项目名称： 用超高真空红外谱研究单晶TiO2(110)表面光催化机理

项目编号： No.21273132

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 数理科学和化学

项目作者： 徐明春

作者单位： 山东大学

项目金额： 80万元

中文摘要： 作为性能优越的光催化功能材料，二氧化钛（TiO2）在新能源、环保等领域正得到越来越多的应用，但TiO2在不同光催化反应中的具体作用机理急需研究。本项目中，我们以金红石型单晶TiO2(110) 理想配比表面为模型催化剂，通过表面技术制备氧空位表面、N掺杂表面、纳米Au颗粒负载表面等TiO2(110)各改性表面；精确控制一氧化碳、一氧化氮、甲酸和甲醇等探针分子的吸附量，利用国际先进的超高真空红外谱技术研究各分子在TiO2(110)理想配比及各改性表面的吸附位置及吸附状态；借助于紫外或日光的辐照，研究各表面不同吸附位置的各分子的氧化或还原反应，寻找各分子在不同表面催化及光催化反应的反应位置和反应路径；结合理论计算，探索各分子在不同表面催化及光催化反应机理。本项目的实施，有助于我们对TiO2(110)表面光催化反应机理的认识，同时对如何进一步提高TiO2在应用中的催化效率也将起到积极的指导作用。

中文关键词： 超高真空红外谱；二氧化钛；催化反应；；

英文摘要： As a photocatalytic functional material with excellent performance, titanium dioxide (TiO2) is being applied more and more in fields as the new energy, environmental protection and so on, but the specific action mechanism of TiO2 in these reactions is still in debate. In this project, the rutile single crystal TiO2(110) stoichiometric surface as a model catalyst, the modified surfaces such as the oxygen vacancy surface, the N-doped surface and the nano-Au particle supported surface will be prepared by surface technology; The adsorption amount of probe molecules such as carbon monoxide (CO), nitric oxide (NO), formic acid (CHOOH) and methanol (CH3OH) is precisely controlled, and their adsorption site and adsorption state on the stoichiometric and modified surfaces are studied by using of the international advanced ultra-high vacuum infrared spectrum; Upon UV or sunlight irradiation, the chemical reaction of the molecules on their adsorption sites is studied to find the reaction conditions, the reaction site and reaction path of the probed molecules in the catalytic and photocatalytic reactions on the different surfaces; Combined with theoretical calculations, the catalytic and photocatalytic reaction mechanism is explored for the molecules on different surfaces. The implementation of this project will be helpful

英文关键词： UHV-FTIRS；TiO2；catalytic reaction；；