1. 毕业设计(论文)的内容和要求
1.在阐明实验研究目的的基础上,从制订实验方案开始,独立完成一个完整的实验。
2.应取得足够的实验数据,并对其进行分析和相应的处理,给出必要的实验曲线、图表,得出实验结论;3.按照本科生毕业论文撰写规范完成1万字以上的实验研究论文。
2. 参考文献
1. S. Adhikari, S. Selvaraj, D.H. Kim, Construction of heterojunction photoelectrode via atomic layer deposition of Fe2O3on Bi2WO6for highly efficient photoelectrochemical sensing and degradation of tetracycline, Appl. Catal. B: Environ. 244 (2019) 11?4.2. F. Xu, H. Chen, C. Xu, D. Wu, Z. Gao, Q. Zhang, K. Jiang, Ultra-thin Bi2WO6 porous nanosheets with high lattice coherence for enhanced performance for photocatalytic reduction of Cr(VI), J. Colloid. Interface Sci. 525 (2018) 97?06.3. Y. Tian, F. Zhou, S. Zhan, Z. Zhu, Q. He, Mechanisms on the enhanced sterilization performance offluorocarbon resin composite coatings modified by g-C3N4/Bi2MoO6 under the visible-light, J. Photochem. Photobiol. A 350 (2018) 10?6.4. J. Zhang, C. Shao, X. Li, J. Xin, R. Tao, Y. Liu, Assembling nBi2MoO6 nanosheets on electrospun pCuAl2O4hollow nanofibers: enhanced photocatalytic activity based on highly efficient charge separation and transfer, ACS Sustain. Chem. Eng. 6 (2018) 10714?0723.5. X.Q. Qiao, Z.W. Zhang, Q.H. Li, D. Hou, Q. Zhang, J. Zhang, D. Li, P. Feng, X. Bu,In situ synthesis of n杗Bi2MoO646(23):235108.12. Wang L, Wang WZ, Sun SM. A simple template-free synthesis of ultrathin Cu2ZnSnS4 nanosheets for highly stable photocatalytic H2 evolution. J Mater Chem 2012;22(14):6553e5.13. Chang ZX, Zhou WH, Kou DX, Zhou ZJ, Wu SX. Phase dependent photocatalytic H2 evolution of copper zinc tin sulfide under visible light. Chem Commun 2014;50(84):12726e9.14. Chang ZX, Chong RF, Meng YN, Zhou WH, Kou DX, Zhou ZJ, et al. High temperature recrystallization of kersterite Cu2ZnSnS4 towards enhanced photocatalytic H2evolution. Int J Hydrogen Energy 2015;40(39):13456e62.15. Gonce MK, Aslan E, Ozel F, Patir IH. Dye-sensitized Cu2XSnS4 (X糧n, Ni, Fe, Co, and Mn) nanofibers for efficient photocatalytic hydrogen evolution. ChemSusChem 2016;9(6):600e5.16. Ozel F, Aslan E, Istanbullu B, Akay O, Patir IH. Photocatalytic hydrogen evolution based on Cu2ZnSnS4,Cu2NiSnS4 and Cu2CoSnS4nanocrystals. Appl Catal B Environ 2016;198:67-73.17. Yuan M, Wang JL, Zhou WH, Chang ZX, Kou DX, Zhou ZJ, et al. Cu2ZnSnS4-CdS heterostructured nanocrystals for enhanced photocatalytic hydrogen production. Catal Sci Technol 2017;7(18):3980e4.18. Ha E, Lee LYS, Wang JC, Li FG, Wong KY, Tsang SCE. Significant enhancement in photocatalytic reduction of water to hydrogen by Au/Cu2ZnSnS4nanostructure. Adv Mater 2014;26(21):3496e500.19. Yu XL, Shavel A, An XQ, Luo ZS, Ibanez M, Cabot A. Cu2ZnSnS4-Pt and Cu2ZnSnS4-Au heterostructured nanoparticles for photocatalytic water splitting and pollutant degradation. J Am Chem Soc 2014;136(26):9236e9.20. Yu XL, An XQ, Genc?A, Ibanez M, Arbiol J, Zhang YH, et al. Cu2ZnSnS4-PtM (M糃o, Ni) nanoheterostructures for photocatalytic hydrogen evolution. J Phys Chem C 2015;119(38):21882e8.21. Ha E, Liu W, Wang LY, Man HW, Hu LS, Tsang SCE, et al. Cu2ZnSnS4/MoS2-reduced graphene oxide heterostructure: nanoscale interfacial contact and enhanced photocatalytic hydrogen generation. Sci Rep 2017;7(8):39411.22. Zhou YL, Zhou WH, Li M, Du YF, Wu SX. Hierarchical Cu2ZnSnS4particles for a low-cost solar cell: morphology control and growth mechanism. J Phys Chem C 2011;115(40):19632e9.23. Li M, Zhou WH, Guo J, Zhou YL, Hou ZL, Jiao J, et al. Synthesis of pure metastable wurtzite CZTS nanocrystals by facile onepot method. J Phys Chem C 2012;116:26507e16.
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