磁控溅射制备Cu2O和Cu2O/TiO2复合膜及其光催化活性

无机材料学报, 2012, 27(4): 395-399. doi: 10.3724/SP.J.1077.2012.00395

磁控溅射制备Cu₂O和Cu₂O/TiO₂复合膜及其光催化活性

(重庆大学输配电装备及系统安全与新技术国家重点实验室, 化学化工学院, 重庆 400044)

System Security and New Technology, School of Chemistry and Chemical Engineering, Chongqing University, Chongqing 400044, China)

基金项目: 中央高校基本科研业务费专项基金(CDJXS10221141和11132229) 国家自然科学基金(20806096) 国家重点实验室项目(2007DA10512711211)

关键词：磁控溅射; 氧化亚铜; 复合薄膜; 光催化

Photocatalytic Activity of Cu₂O and Bilayer Cu₂O/TiO₂ Films Prepared by Magnetron Sputtering

LIU Can , WEI Zi-Dong , ZHANG Qian , HU Bao-Shan , QI Xue-Qiang , CHEN Si-Guo , DING Wei

Keywords： magnetron sputtering; cuprous oxide; composite films; photocatalytic

采用直流反应磁控溅射的方法在普通玻璃上沉积得到Cu₂O、TiO₂和Cu₂O/TiO₂复合薄膜. 用X射线衍射仪(XRD)、扫描电子显微镜(SEM)和X射线能谱仪(EDS)对薄膜的晶体结构、表面形态和薄膜元素组成进行了分析. XRD结果表明, 当反应溅射时间为5 min时, Cu₂O薄膜由单一的(111)晶面组成; 反应时间的延长促进了Cu₂O(110)和(220)晶面的生长. 通过计算得出Cu₂O(111)更有利于对O₂的吸附. 进一步使用氙灯作为光源, 用薄膜对亚甲基蓝(MB)的降解率来表征光催化活性. 结果表明, Cu₂O/TiO₂复合薄膜的光催化效果随着Cu₂O含量的增加升高而后降低, 当Cu₂O含量为2.6mol%时, 光催化活性最高. 光催化效率的提高主要归因于Cu₂O的加入引起光生电子-空穴的分离, 而过量的Cu₂O会延长光生电子迁移到Cu₂O/TiO₂界面和空穴迁移至表面所需要的时间, 使电子和空穴复合的几率增大, 从而降低了量子效率.

Cu₂O, TiO₂ and composite Cu₂O/TiO₂ films were deposited on slide glass by direct current (DC) reactive magnetron sputtering. X-ray diffraction (XRD), scanning electron microscope (SEM) and energy-dispersive spectrometry (EDS) were applied to characterize crystal structure, morphology and composition of the films, respectively. Photocatalytic activity was evaluated by the degradation of methylene blue (MB) with Xenon lamp. XRD results show that besides the initial (111) crystal plane at sputtering time of 5 min, (110) and (220) crystal planes gradually develop on the Cu₂O film with the increase of sputtering time. Our calculation result indicates that (111) crystal plane is more beneficial to absorption of O₂ than other crystal planes. The photocatalytic activity of the Cu₂O/TiO₂ composite films first increases with increasing Cu₂O-deposited content, and then reaches the highest value when the deposited content of Cu₂O is 2.6mol%, and successively undergoes a drop. The enhancement of the photocatalytic activity is mainly attributed to alleviate the recombination of electron-hole pairs. Excessive Cu₂O will prolong the time for transferring of electrons to Cu₂O/TiO₂ interface and holes to surface, which increases the recombination probability of electrons and holes, and thus reduces the quantum efficiency.

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