Origin of the overall water splitting activity of Ta3N5 revealed by ultrafast transient absorption spectroscopy

超快激光光谱学 超短脉冲 光谱学 瞬态(计算机编程) 吸收光谱法 吸收(声学) 分析化学(期刊) 化学物理 材料科学 化学 物理 光学 环境化学 计算机科学 激光器 量子力学 操作系统
作者
Dharmapura H. K. Murthy,Hiroyuki Matsuzaki,Zheng Wang,Yohichi Suzuki,Takashi Hisatomi,Kazuhiko Seki,Yasunobu Inoue,Kazunari Domen,Akihiro Furube
出处
期刊:Chemical Science [Royal Society of Chemistry]
卷期号:10 (20): 5353-5362 被引量:84
标识
DOI:10.1039/c9sc00217k
摘要

Tantalum nitride (Ta3N5) is one of the few visible light absorbing photocatalysts capable of overall water splitting (OWS), by which the evolution of both H2 and O2 is possible. Despite favourable energetics, realizing the OWS or efficient H2 evolution in Ta3N5 prepared by the nitridation of tantalum oxide (Ta2O5) or Ta foil remains a challenge even after 15 years of intensive research. Recently our group demonstrated OWS in Ta3N5 when prepared by the short time nitridation of potassium tantalate (KTaO3). To obtain a mechanistic insight on the role of Ta precursor and nitridation time in realizing OWS, ultrafast dynamics of electrons (3435 nm probe) and holes (545 nm probe) is investigated using transient absorption spectroscopy. Electrons decay majorly by trapping in Ta3N5 prepared by the nitridation of Ta2O5, which do not show OWS. However, OWS activity in Ta3N5 prepared by 0.25 hour nitridation of KTaO3 is particularly favoured by the virtually absent electron and hole trapping. On further increasing the nitridation time of KTaO3 from 0.25 to 10 hour, trapping of both electron and hole is enhanced which concurrently results in a reduction of the OWS activity. Insights from correlating the synthesis conditions-structural defects-carrier dynamics-photocatalytic activity is of importance in designing novel photocatalysts to enhance solar fuel production.
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