CoGeO3对光电极电催化性能的影响任务书
2020-04-29 19:05:12
1. 毕业设计(论文)的内容和要求
当今能源危机以及环境污染日益严重。
以太阳能驱动的水分解为解决这些问题提供了一个全新的绿色途径,已经受到研究者们的广泛关注。
光电催化过程能够整合光催化和电催化两者的优势,从而实现对水分解更高的效率和更理想的选择性。
2. 参考文献
[1] R. Y. Ge, S. P. Wu, Y. Du, W. C. Zhou, Z. Zhang. Enhanced Li-storage performances of dually-protected CoGeO3 nanocomposites as anode materials for lithium ion batteries. Carbon, 2016, 107(352-60. [2] Z. Xu, S. C. Yan, Z. Shi, Y. F. Yao, P. Zhou, H. Y. Wang, Z. G. Zou. Adjusting the Crystallinity of Mesoporous Spinel CoGa2O4 for Efficient Water Oxidation. Acs Appl Mater Inter, 2016, 8(20), 12887-93. [3] W. Zhu, X. Yue, W. Zhang, S. Yu, Y. Zhang, J. Wang, J. Wang. Nickel sulfide microsphere film on Ni foam as an efficient bifunctional electrocatalyst for overall water splitting. Chemical Communications, 2016, 52(7), 1486-9. [4] S. Zhao, Y. Wang, J. Dong, C.-T. He, H. Yin, P. An, K. Zhao, X. Zhang, C. Gao, L. Zhang, J. Lv, J. Wang, J. Zhang, A. M. Khattak, N. A. Khan, Z. Wei, J. Zhang, S. Liu, H. Zhao, Z. Tang. Ultrathin metal-organic framework nanosheets for electrocatalytic oxygen evolution. Nature Energy, 2016, 1(1-10. [5] X.-Y. Yu, Y. Feng, Y. Jeon, B. Guan, X. W. Lou, U. Paik. Formation of Ni-Co-MoS2 Nanoboxes with Enhanced Electrocatalytic Activity for Hydrogen Evolution. Advanced Materials, 2016, 28(40), 9006-11. [6] B. You, N. Jiang, M. Sheng, M. W. Bhushan, Y. Sun. Hierarchically Porous Urchin-Like Ni2P Superstructures Supported on Nickel Foam as Efficient Bifunctional Electrocatalysts for Overall Water Splitting. Acs Catalysis, 2016, 6(2), 714-21. [7] Y. Xu, M. Kraft, R. Xu. Metal-free carbonaceous electrocatalysts and photocatalysts for water splitting. Chemical Society Reviews, 2016, 45(11), 3039-52. [8] Y. Wu, G.-D. Li, Y. Liu, L. Yang, X. Lian, T. Asefa, X. Zou. Overall Water Splitting Catalyzed Efficiently by an Ultrathin Nanosheet-Built, Hollow Ni3S2-Based Electrocatalyst. Adv Funct Mater, 2016, 26(27), 4839-47. [9] N.-T. Suen, S.-F. Hung, Q. Quan, N. Zhang, Y.-J. Xu, H. M. Chen. Electrocatalysis for the oxygen evolution reaction: recent development and future perspectives. Chemical Society Reviews, 2017, 46(2), 337-65. [10] A. Sivanantham, P. Ganesan, S. Shanmugam. Hierarchical NiCo2S4 Nanowire Arrays Supported on Ni Foam: An Efficient and Durable Bifunctional Electrocatalyst for Oxygen and Hydrogen Evolution Reactions. Adv Funct Mater, 2016, 26(26), 4661-72. [11] Z. W. Seh, K. D. Fredrickson, B. Anasori, J. Kibsgaard, A. L. Strickler, M. R. Lukatskaya, Y. Gogotsi, T. F. Jaramillo, A. Vojvodic. Two-Dimensional Molybdenum Carbide (MXene) as an Efficient Electrocatalyst for Hydrogen Evolution. Acs Energy Letters, 2016, 1(3), 589-94. [12] Q. Lu, Y. Yu, Q. Ma, B. Chen, H. Zhang. 2D Transition-Metal-Dichalcogenide-Nanosheet-Based Composites for Photocatalytic and Electrocatalytic Hydrogen Evolution Reactions. Advanced Materials, 2016, 28(10), 1917-33. [13] J.-S. Li, Y. Wang, C.-H. Liu, S.-L. Li, Y.-G. Wang, L.-Z. Dong, Z.-H. Dai, Y.-F. Li, Y.-Q. Lan. Coupled molybdenum carbide and reduced graphene oxide electrocatalysts for efficient hydrogen evolution. Nature Communications, 2016, 7 [14] Y. Jin, H. Wang, J. Li, X. Yue, Y. Han, P. K. Shen, Y. Cui. Porous MoO2 Nanosheets as Non-noble Bifunctional Electrocatalysts for Overall Water Splitting. Advanced Materials, 2016, 28(19), 3785-90. [15] Y. Jiao, Y. Zheng, K. Davey, S.-Z. Qiao. Activity origin and catalyst design principles for electrocatalytic hydrogen evolution on heteroatom-doped graphene. Nature Energy, 2016, 1
3. 毕业设计(论文)进程安排
2018年12月-2019年1月 查找相关文献资料,了解实验的装置,相关的理论,写开题报告,开展初步的实验; 2019年2月-2019年4月 全面开展实验,具体包括样品的制备,数据的采集,数据的初步分析等; 2019年5月 毕业论文的撰写,毕业论文的答辩等