Accelerating Interfacial Electron Extraction for Boosting Photocatalytic Hydrogen Evolution of Pt/Ta<sub>3</sub>N<sub>5</sub>:Mg+Hf
Jiwei Cui, Xinmin Yang, Yan‐Hui Sun, Xuemei Du, Chenhe Wu, Xin Chen, Kailun Deng, Lequan Liu, Jinhua Ye
Abstract
Promoting bulk charge separation in Ta 3 N 5 through Mg doping was demonstrated as an effective strategy for enhancing photocatalytic water oxidation. However, this strategy exhibits a limited effect in addressing the long-standing issue of poor HER activity of Ta 3 N 5 . Herein, the underlying mechanism was first clarified, and a Mg–Hf codoping strategy was developed, which remarkably enhanced the HER activity. Systematic studies revealed that effective interfacial electron transfer between Ta 3 N 5 and Pt was seriously impeded after Mg doping. UPS and DFT calculations demonstrated that Hf codoping significantly accelerates interfacial electron extraction through the modulation of Fermi level. 7.7 and 17.6 times enhancement in HER was achieved over Ta 3 N 5:Mg+Hf as compared with Ta 3 N 5:Mg and Ta 3 N 5, respectively. An outstanding AQY was achieved, ranking among the highest values reported for Ta 3 N 5 . This work highlights the importance of effective interfacial electron extraction and presents a feasible approach to rationally designing Ta 3 N 5 .