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毕业论文网 > 任务书 > 材料类 > 高分子材料与工程 > 正文

基于高强度导电水凝胶的超级电容器的制备与性能研究任务书

 2020-04-25 20:22:56  

1. 毕业设计(论文)的内容和要求

柔性超级电容器由于其具备高功率密度、中等能量密度、快速充放电、好的循环稳定性和机械柔韧性等众多优势,成为柔性电子设备的一种有前途的供能设备。

柔性超级电容器制备的关键环节是柔性电极材料的设计和开发。

本课题探索基于导电高分子水凝胶的柔性超级电容器的制备与性能表征。

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2. 参考文献

[1] 何曼君, 陈维孝, 董西侠. 高分子物理-修订版 [M]. 复旦大学出版社, 1990. [2] Dong L, Xu C, Li Y, et al. Flexible electrodes and supercapacitors for wearable energy storage: a review by category[J]. Journal of Materials Chemistry A, 2016, 4(13): 4659-4685. [3] Niu Z, Dong H, Zhu B, et al. Highly stretchable, integrated supercapacitors based on single-walled carbon nanotube films with continuous reticulate architecture[J]. Advanced Materials, 2013, 25(7): 1058-1064. [4] Xie Y, Liu Y, Zhao Y, et al. Stretchable all-solid-state supercapacitor with wavy shaped polyaniline/graphene electrode[J]. Journal of Materials Chemistry A, 2014, 2(24): 9142- 9149. [5]Chen T, Dai L. Carbon nanomaterials for high-performance supercapacitors[J]. Materials Today, 2013, 16(7-8): 272-280. [6]余丽丽, 朱俊杰, 赵景泰. 超级电容器的现状及发展趋势[J]. 自然杂志, 2015, (03): 188-196. [7] Simon P, Gogotsi Y. Materials for electrochemical capacitors[J]. Nature Materials, 2008, 7(11): 845-854. [8] Ahmed E M. Hydrogel: Preparation, characterization, and applications: A review [J]. Journal of Advanced Research, 2015, 6(2): 105-121. [9] Chen Q, Zhu L, Zhao C, et al. A Robust, One-Pot Synthesis of Highly Mechanical and Recoverable Double Network Hydrogels Using Thermoreversible Sol-Gel Polysaccharide [J]. Advanced Materials, 2013, 25(30): 4171-4176. [10] Jeong-Yun S, Xuanhe Z, Illeperuma W R K, et al. Highly stretchable and tough hydrogels [J]. Nature, 2012, 489(7414): 133-136. [11] Zhao D, Huang J, Zhong Y, et al. High-Strength and High-Toughness Double-Cross-Linked Cellulose Hydrogels: A New Strategy Using Sequential Chemical and Physical Cross-Linking [J]. Advanced Functional Materials, 2016, 26(34): 6279-6287. [12] Tao F, Qin L, Wang Z, et al. Self-Healable and Cold-Resistant Supercapacitor Based on a Multifunctional Hydrogel Electrolyte[J]. ACS Applied Materials Interfaces, 2017, 9(18): 15541-15548. [13] 刘潇娟, 杨光, 廖红英, et al. 超级电容器电解质的研究进展[J]. 化学试剂, 2013, (06): 510-514. [14] Zhang Y S, Khademhosseini A. Advances in engineering hydrogels[J]. Science, 2017, 356(6337): 3627.

3. 毕业设计(论文)进程安排

2018.12.1-2018.12.22 了解课题背景,查阅文献 2018.12.23-2019.1.12外文翻译、文献综述2019.1.19-2019.2.25 寒假 2019.2.26-2019.3.10 写出开题报告,确定实验方案 2019.3.10-2019.4.30 熟悉并掌握材料制备过程 2019.5.2-2019.5.20 材料制备与测试表征 2019.5.21-2019.6.7 数据分析整理及毕业论文写作,预答辩 2019.6.8-2019.6.15 答辩

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