1. 毕业设计(论文)的内容和要求
1.查阅相关文献与专业书籍了解目前聚酰亚胺-金属有机骨架纳米复合材料的制备方法与性能。
了解课题相关背景,已有成果以及存在的问题,对论文的研究方向有较深入的认识。
2.培养学生独立思考及动手做实验的能力,养成良好的科研习惯。
2. 参考文献
[1] 王天琦, 肖国勇, 鲁云华, 等. 镧系金属有机骨架/聚酰亚胺复合材料的制备及其性能[J].复合材料学报,2018,35(11):2927-2934.[2] 张潮, 刘春雨, 邓盼姗, 等. 金属有机骨架/聚酰亚胺复合膜材料的制备及脱硫特性[J].化工新型材料,2015,43(08):102-105.[3] 杨婷婷, 周竹欣, 张艺, 等.光致发光聚酰亚胺研究进展[J].高分子学报,2017(03):411-428.[4] 牟书香. 聚酰亚胺表面功能化复合材料的制备及结构与性能研究[D].北京化工大学,2010.[5] 史军辉. 纳米氧化锌掺杂聚酰亚胺薄膜制备和电致发光研究[D].哈尔滨理工大学,2012.[6] G. Heiland, Zum Einu von Wassersto auf die elektrische Leitfhigkeit an der Oberche von Zinkoxydkristallen, Z. Phys. (1957) 1527. [7] T. Seiyama, A. Kato, K. Fujiishi, etal, A new detector for gaseous components using semiconductive thin lms, Anal. Chem. (1962) 15021503. [8] S.R. Morrison, Selectivity in semiconductor gas sensors, Sens. Actuator (1987) 425440. [9] S.R. Morrison, Semiconductor gas sensors, Sens. Actuator (1981) 329341. [10] N. Barsan, U. Weimar, Understanding the fundamental principles of metal oxide based gas sensors; the example of CO sensing with SnO 2 sensors in the presence of humidity, J. Phys. Condens. Matter (2003) R813. [11] D. Koziej, N. Barsan, U. Weimar, etal, Wateroxygen interplay on tin dioxide surface: implication on gas sensing, Chem. Phys. Lett. (2005) 321323. [12] P.T. Moseley, Progress in the development of semiconducting metal oxide gas sensors: a review, Meas. Sci. Technol. (2017) 082001. [13] Z. Yalei, Z. Wenlong, Y. Bin, L. Jingquan, etal, Gassensing enhancement methods for hydrothermal synthesized SnO 2 -based sensors, Nanotechnology (2017) 452002.[14] A. Vergara, E. Llobet, J. Brezmes, etal, Quantitative gas mixture analysis using temperature-modulated microhotplate gas sensors: selection and validation of the optimal modulating frequencies, Sens. Actuator B Chem. (2007) 10021016[15] M.A. Andio, P.N. Browning, P.A. Morris, etal, Comparison of gas sensorperformance of SnO2 nano-structures on microhotplate platforms, Sens. Actuator B Chem. (2012) 1318. [16] R. Mohammadzadeh Kakhki, Recent developments on application of nanometaloxide based gas sensor arrays, Russ. J. Appl. Chem. (2017) 10301039.[17] R. Seifert, H.B. Keller, N. Illyaskutty, etal, Numerical signal analysis of thermo-cyclically operated MOG gas sensor arrays for early identication of emissions from overloaded electric cables, Sens. Transducers (2015) 6. [18] N. Illyaskutty, J. Knoblauch, M. Schwotzer, etal, Thermally modulated multi sensor arrays of SnO2/additive/electrode combinations for enhanced gas identication, Sens. Actuator B Chem. (2015) 212.[19] J. Lee, J.H. Kwak, W. Choe, Evolution of form in metalorganic frameworks, Nat. Commun. (2017) 14070.[20] Y. Liu, Z. Tang, Multifunctional Nanoparticle@MOF CoreShell Nanostructures, Multifunctional Nanoparticle@MOF CoreShell Nanostructures, (2013), pp. 58195825. [21] Q. Yang, W. Liu, B. Wang, etal, Regulating the spatial distribution of metal nanoparticles within metal-organic frameworks to enhance catalytic eciency, Nat. Commun. (2017) 14429
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