光电阴极
分解水
材料科学
阳极
光电子学
开尔文探针力显微镜
兴奋剂
能量转换效率
表面光电压
法拉第效率
光电化学
化学计量学
阴极保护
可见光谱
光电效应
光电化学电池
载流子
耗尽区
能量转换
工作职能
钛酸酯
光学
纳米技术
太阳能
分析化学(期刊)
作者
Boyang Zhang,Jiaming Zhang,Jiaming Zhang,Kaiwei Liu,Haifeng Wang,Yao Xu,Ke Shi,Zihao Zhang,Jifang Zhang,Jifang Zhang,Guijun Ma
出处
期刊:ACS Catalysis
[American Chemical Society]
日期:2026-01-09
卷期号:16 (3): 2509-2521
标识
DOI:10.1021/acscatal.5c07730
摘要
Photoelectrochemical (PEC) water splitting using pair-conjugated dual-electrodes is a promising approach for converting solar energy to hydrogen. However, the development of stable photocathode materials capable of harvesting visible light remains challenging. Herein, rhodium-doped lead titanate (Rh:PbTiO3) was synthesized via a vacuum-condition solid-state reaction. Rh doping converted the n-type PbTiO3 host into a p-type one, accompanied by a transition from an anodic to cathodic PEC response. The switching mechanism was thoroughly investigated using Kelvin probe force microscopy and in situ surface photovoltage spectroscopy. Spontaneously formed Rh on the Rh:PbTiO3 particle was conducive to enhancing surface charge injection efficiency (86% at 0.2 V vs RHE). The onset potential of the optimized 4% Rh:PbTiO3 photocathode reached 1.06 V vs RHE after modification with a layered Pt@Rh cocatalyst. An unbiased parallel cell established by the Rh:PbTiO3 photocathode and Mo:BiVO4 photoanode exhibited stoichiometric and continuous water splitting under simulated sunlight illumination with a Faradaic efficiency of unity. This work not only outlines the dopant-dominated n/p-type transition for semiconducting materials but also shows their priority in achieving stable and visible light-responsive PEC water splitting.
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