1. 毕业设计(论文)的内容和要求
查阅文献,了解二维材料MXene在气体分离方面的发展历程和最新进展,熟悉中空纤维膜的常用制备方法,锻炼独立思考和实验动手能力,学会针对性的查阅文献,使用相关的实验设备和测试仪器,通过毕业论文的写作思路和方法的锻炼初步培养文章撰写能力,能够做到提出问题、设计实验、处理数据、解决问题、撰写论文。
2. 参考文献
[1] L. Ding, Y. Wei, L. Li, T. Zhang, H. Wang, J. Xue, L.X. Ding, S. Wang, J. Caro, Y. Gogotsi, MXene molecular sieving membranes for highly efficient gas separation, Nat Commun, 9 (2018) 155.[2] Y. Fan, L. Wei, X. Meng, W. Zhang, N. Yang, Y. Jin, X. Wang, M. Zhao, S. Liu, An unprecedented high-temperature-tolerance 2D laminar MXene membrane for ultrafast hydrogen sieving, Journal of Membrane Science, 569 (2019) 117-123.[3] Y. Jin, Y. Fan, X. Meng, W. Zhang, B. Meng, N. Yang, S. Liu, Theoretical and Experimental Insights into the Mechanism for Gas Separation through Nanochannels in 2D Laminar MXene Membranes, Processes, 7 (2019).[4] L. Li, T. Zhang, Y. Duan, Y. Wei, C. Dong, L. Ding, Z. Qiao, H. Wang, Selective gas diffusion in two-dimensional MXene lamellar membranes: insights from molecular dynamics simulations, Journal of Materials Chemistry A, 6 (2018) 11734-11742.[5] J. Shen, G. Liu, Y. Ji, Q. Liu, L. Cheng, K. Guan, M. Zhang, G. Liu, J. Xiong, J. Yang, W. Jin, 2D MXene Nanofilms with Tunable Gas Transport Channels, Advanced Functional Materials, 28 (2018).[6] Y. Sun, S. Li, Y. Zhuang, G. Liu, W. Xing, W. Jing, Adjustable interlayer spacing of ultrathin MXene-derived membranes for ion rejection, Journal of Membrane Science, 591 (2019).[7] L. Cheng, K. Guan, G. Liu, W. Jin, Cysteamine-crosslinked graphene oxide membrane with enhanced hydrogen separation property, Journal of Membrane Science, 595 (2020).[8] H. Li, Z. Song, X. Zhang, Y. Huang, S. Li, Y. Mao, H.J. Ploehn, Y. Bao, M. Yu, Ultrathin, molecular-sieving graphene oxide membranes for selective hydrogen separation, Science, 342 (2013) 95-98.[9] J. Li, X. Li, B. Van der Bruggen, MXene based membrane for molecular separation, Environmental Science: Nano, (2020).[10] M. Ding, H. Xu, W. Chen, G. Yang, Q. Kong, D. Ng, T. Lin, Z. Xie, 2D laminar maleic acid-crosslinked MXene membrane with tunable nanochannels for efficient and stable pervaporation desalination, Journal of Membrane Science, 600 (2020).[11] L.L. Li Ding, Yanchang Liu, Yi Wu, Zong Lu, Junjie Deng, Yanying Wei, Jrgen Caro,Haihui Wang, Effective ion sieving with Ti3C2Tx MXene membranes for production of drinking water from seawater, Nature sustainability, (2020).[12] G. Liu, J. Shen, Q. Liu, G. Liu, J. Xiong, J. Yang, W. Jin, Ultrathin two-dimensional MXene membrane for pervaporation desalination, Journal of Membrane Science, 548 (2018) 548-558.[13] Z. Lu, Y. Wei, J. Deng, L. Ding, Z.K. Li, H. Wang, Self-Crosslinked MXene (Ti3C2Tx) Membranes with Good Antiswelling Property for Monovalent Metal Ion Exclusion, ACS Nano, 13 (2019) 10535-10544.[14] C.E. Ren, K.B. Hatzell, M. Alhabeb, Z. Ling, K.A. Mahmoud, Y. Gogotsi, Charge- and Size-Selective Ion Sieving Through Ti3C2Tx MXene Membranes, The Journal of Physical Chemistry Letters, 6 (2015) 4026-4031.[15] S. Wei, Y. Xie, Y. Xing, L. Wang, H. Ye, X. Xiong, S. Wang, K. Han, Two-dimensional graphene Oxide/MXene composite lamellar membranes for efficient solvent permeation and molecular separation, Journal of Membrane Science, 582 (2019) 414-422.[16] X. Wu, X. Cui, W. Wu, J. Wang, Y. Li, Z. Jiang, Elucidating Ultrafast Molecular Permeation through Well-Defined 2D Nanochannels of Lamellar Membranes, Angew Chem Int Ed, 58 (2019) 18524-18529.
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