1. 毕业设计(论文)的内容和要求
高折光指数光学材料可以实现在不影响其折光性能的同时减小材料的质量,因此被广泛应用于许多现代光学领域。
高折光指数高分子材料与传统的无机玻璃相比,具有重量轻、耐冲击、成本低、易处理等优点,己被广泛应用于光学和光电领域,例如光学镜头、发光二极管封装器、相机、传感器等。
砸与硫位于元素周期表的同一周期,其物理性质和化学性质相近。
2. 参考文献
1.K. Colladet, M. Nicolas, L. Goris, L. Lutsen and D. Vanderzande. Low-band gap polymers for photovoltaic applications, Thin Solid Films. 2004, 45, 7-11.2.T. Ando, T. S. Kwon, A. Kitagawa. T. Tanemura, S. Kondo, H. Kunisada and Y. Yuki, Synthesis and free radical polymerization of p-methylseleno-and p-phenylselenostyrenes. Macromolecidar Chemistry and Physics, 1996, 197, 2803-2810.3.K. Takagi, Y Nishikawa, T. S. Kwon. H. Kunisada and Y. Yuki. Synthesis of Branched Polystyrene by Photopolymerization of Selenium-Containing Styrene Monomer, Polymer journal, 2000, 32, 970-973.4.J. Lu, N. Zhou, X. Pan. J. Zhu and X. Zhu, Branched polystyrene with high reflex index synthesized from selenium-mediated polymerization. Journal of Polymer Science Part A: Polymer Chemistry, 2014, 52, 504-510.5.C. Fan, C. Ding, X. Pan, Z. Zhang, J. Zhu and X. Zhu, A Straightforward Method for Preparing Well-Defined Responsive Diselenide-Containing Polymers Based on ATRP, Macromolecular rapid communications, 2015, 36, 903-908.6.J. Zeng, Z. Zhang, X. Pan, W. Zhang and Z. Cheng, New selenium-based iniferter agent for living free radical polymerization of styrene under UY irradiation. Journal of Polymer Science Part A: Polymer Chemistry, 2012, 50, 2211-2218.7.Y. Zhan, Z. Zhang, X. Pan, J. Zhu, N. Zhou and X. Zhu, A cyclic selenium-based reversible addition-fragmentation chain transfer agent mediated polymerization of vinyl acetate, Journal of Polymer Science Part A : Polymer Chemistry, 2013, 51, 1656-1663
