Band‐Structure Engineering of ZnO by Anion–Cation Co‐Doping for Enhanced Photo‐Electrochemical Activity |
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| Authors: | Jing Pan Dr. Shudong Wang Dr. Qian Chen Prof. Jingguo Hu Prof. Jinlan Wang |
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| Affiliation: | 1. Department of Physics & Key Laboratory of MEMS of Ministry of Education, Southeast University, Nanjing, 211189 (China);2. College of Physics Science and Technology, Yangzhou University, Yangzhou, 225002 (China) |
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| Abstract: | To look for efficient visible light‐driven catalysts for photo‐electrochemical (PEC) water‐splitting, the band structure and optical absorption of monodoped, compensated, and noncompensated n–p pairs of co‐doped bulk ZnO are systemically studied by using both general gradient approximation and hybrid density functional theory approaches (PBE and HSE). Calculations show that n–p co‐doping cannot only enhance the stability that stems from the strong electrostatic attraction between the n‐ and p‐type dopants, but also effectively reduce the band‐gap of ZnO. More importantly, compensated (Ti+C) and noncompensated (Sc+C) and (Cr+C) co‐doped ZnO may be compelling candidates for PEC water‐splitting because of their narrowed band‐gaps, potentially reduced electron–hole recombination centers, appropriate band‐edge positions, enhanced optical absorption, and good stability. |
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| Keywords: | band‐gaps co‐doping photo‐electrochemistry water splitting zinc oxide |
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