Chlorine Adsorption on TiO2(110)/Water Interface: Nonadiabatic Molecular Dynamics Simulations for Photocatalytic Water Splitting

Yin Lin, D. Bocharov, I. Isakoviča, V. Pankratov, Aleksandr A. Popov, A. I. Popov, S. Piskunov
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Abstract

Chloride is one of the most abundant ions in sea water, which is more available than fresh water. Due to lack of H2O adsorbate states near the valence band maximum (VBM) edge, the difficulty of water dissociation incidents has been reported on the rutile TiO2 surface as the excitation energy is around the band gap energy of TiO2. It is interesting whether the extra chloride can be a benefit to the water dissociation or not. In this study, the models of chlorine adatoms placed on the rutile TiO2 (110)/water interface are constructed using ab initio methods. The time-dependent spatial charges, bond-lengths of water molecules, and Hirshfeld charges are calculated by real-time time-dependent density functional theory and the Ehrenfest dynamics theory for investigating the excited state nonadiabatic dynamics of water dissociation. This study presents two photoinduced water-splitting pathways related to chlorine and analyzes the photogenerated hole along the reactions. The first step of water dissociation relies on the localized competition of oxygen charges between the dissociated water and the bridge site of TiO2 for transforming the water into hydroxyl and hydrogen by photoinduced driving force.
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二氧化钛(110)/水界面上氯的吸附:光催化水分解的非绝热分子动力学模拟
氯化物是海水中最丰富的离子之一,比淡水更容易获得。由于在价带最大值(VBM)边缘附近缺乏H2O吸附态,在金红石型TiO2表面由于激发能在TiO2带隙能附近,水解离事件较为困难。有趣的是,多余的氯离子是否有利于水的解离。在本研究中,采用从头算方法构建了放置在金红石型TiO2(110)/水界面上的氯原子模型。利用实时时变密度泛函理论和Ehrenfest动力学理论计算了水分子随时间变化的空间电荷、键长和Hirshfeld电荷,研究了水解离的激发态非绝热动力学。本研究提出了两种与氯有关的光诱导水分解途径,并分析了反应过程中的光生空穴。水解离的第一步依赖于解离水与TiO2桥位之间的局部氧电荷竞争,通过光诱导驱动力将水转化为羟基和氢。
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