1. 毕业设计(论文)的内容和要求
需要学生了解光电催化的基本内容。
及本课题选择的SrTaO2N的基本物化特性;制备温度对半导体性能的影响;熟悉数据处理常用软件的使用,物化特性表征结果的分析,论文撰写的基本要求。
2. 参考文献
(1) Fang, T.; Huang, H. t.; Feng, J. Y.; Hu, Y. F.; Qian, Q. F.; Yan, S. C.; Yu, Z. T.; Li, Z. S.; Zou, Z. G. Reactive Inorganic Vapor Deposition of Perovskite Oxynitride Films for Solar Energy Conversion. Research 2019, 2019, 1-9.(2) Chun, W. J.; Ishikawa, A.; Fujisawa, H.; Takata, T.; Kondo, J.; Hara, M.; Kawai, M.; Matsumoto, Y.; Domen, K. Conduction and Valence Band Positions of Ta2O5, TaON, and Ta3N5 by UPS and Electrochemical Methods. J. Phys. Chem. B 2003, 107 (8), 1798-1803.(3) Henderson, S.; Hector, A. Structural and compositional variations in Ta3N5 produced by high-temperature ammonolysis of tantalum oxide. J. Solid State Chem. 2006, 179 (11), 3518-3524.(4) Sun, X. Q.; Wu, F. F.; Liu, G.; Xu, X. X. Enabling efficient visible light photocatalytic water splitting over SrTaO2N by incorporating Sr in its B site. J. Mater. Chem. A 2018, 6 (42), 20760-20768.(5) Chen, S.; Shen, S.; Liu, G.; Qi, Y.; Zhang, F.; Li, C. Interface engineering of a CoO(x)/Ta3N5 photocatalyst for unprecedented water oxidation performance under visible-light-irradiation. Angew. Chem. Int. Ed. 2015, 54 (10), 3047-3051.(6) Wei, S. H.; Xu, X. X. Boosting photocatalytic water oxidation reactions over strontium tantalum oxynitride by structural laminations. Applied Catalysis B: Environmental 2018, 228, 10-18.(7) Wang, G. M.; Wang, H. Y.; Ling, Y. C.; Tang, Y. C.; Yang, X. Y.; Fitzmorris, R. C.; Wang, C. C.; Zhang, J. Z.; Li, Y. Hydrogen-treated TiO2 nanowire arrays for photoelectrochemical water splitting. Nano Lett. 2011, 11 (7), 3026-3033.
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