利用电泳技术制作GO薄膜电极任务书
2020-04-29 19:06:02
1. 毕业设计(论文)的内容和要求
电泳沉积是指在稳定的悬浮液中通过直流电场的作用,胶体的粒子沉积成材料的过程称之为电泳沉积。
例如对电泳涂料施加直流电压,带电荷的涂料粒子移动到阴极,并与阴极表面所产生的碱性作用形成不溶解物而沉积于工作表面。
因此电泳沉积包括两个过程,其一是电泳,其二是沉积。
2. 参考文献
[1]Xiaolan Jin,Lu Huang,Shuai Yu,Mengna Ye,Junhua Yuan,Jianfeng Shen,Keming Fang,Xuexiang Weng. Selective electrochemical removal of cesium ion based on nickel hexacyanoferrate/reduced graphene oxide hybrids[J]. Separation and Purification Technology,2019,209. [2]Zhanghua Zou,Wenjie Zhou,Yanhua Zhang,Hong Yu,Chengbo Hu,Wei Xiao. High-performance flexible all-solid-state supercapacitor constructed by free-standing cellulose/reduced graphene oxide/silver nanoparticles composite film[J]. Chemical Engineering Journal,2019,357. [3]Divya P. Narayanan,Sugunan Sankaran,Binitha N. Narayanan. Novel rice husk ash - reduced graphene oxide nanocomposite catalysts for solvent free Biginelli reaction with a statistical approach for the optimization of reaction parameters[J]. Materials Chemistry and Physics,2019,222. [4]Hassan Nosrati,Rasoul Sarraf Mamoory,Fatemeh Dabir,Maria Canillas Perez,Miguel Angel Rodriguez,Dang Quang Svend Le,Cody Eric B#252;nger. In situ synthesis of three dimensional graphene-hydroxyapatite nano powders via hydrothermal process[J]. Materials Chemistry and Physics,2019,222. [5]Xiaoshu Lv,Denghui Tian,Yiyin Peng,Junxi Li,Guangming Jiang. Superhydrophobic magnetic reduced graphene oxide-decorated foam for efficient and repeatable oil-water separation[J]. Applied Surface Science,2019,466. [6]Xiang Gao,Hao Zhao,Yonggang Liu,Zhenpeng Ren,Cuiping Lin,Jianli Tao,Yunpu Zhai. Facile synthesis of PdNiP/Reduced graphene oxide nanocomposites for catalytic reduction of 4-nitrophenol[J]. Materials Chemistry and Physics,2019,222. [7]Yu Jun Yang,Weikun Li. Hierarchical Ni#8211;Co double hydroxide nanosheets on reduced graphene oxide self-assembled on Ni foam for high-energy hybrid supercapacitors[J]. Journal of Alloys and Compounds,2019,776. [8]Yiming lei,Zhengjun Yao,Haiyan Lin,Azhar Ali Haidry,Jintang Zhou,Peijiang Liu. Synthesis and high-performance microwave absorption of reduced graphene oxide/Co-doped ZnNi ferrite/polyaniline composites[J]. Materials Letters,2019,236. [9]Ina Haxhiaj,Sebastian Tigges,Damian Firla,Xiaorui Zhang,Ulrich Hagemann,Takahiro Kondo,Junji Nakamura,Galina Marzun,Stephan Barcikowski. Platinum nanoparticles supported on reduced graphene oxide prepared in situ by a continuous one-step laser process[J]. Applied Surface Science,2019,469. [10]Juan Luis G#243;mez-Urbano,Juan Luis G#243;mez-C#225;mer,Cristina Botas,Te#243;filo Rojo,Daniel Carriazo. Graphene oxide-carbon nanotubes aerogels with high sulfur loadings suitable as binder-free cathodes for high performance lithiumsulfur batteries[J]. Journal of Power Sources,2019,412. [11]Pricila Marin,Rosacirc;ngela Bergamasco,Aparecido Nivaldo M#243;denes,Paulo Roberto Paraiso,Safia Hamoudi. Synthesis and characterization of graphene oxide functionalized with MnFe 2 O 4 and supported on activated carbon for glyphosate adsorption in fixed bed column[J]. Process Safety and Environmental Protection,2019,123. [12]Dongxu He,Alexander J. Marsden,Zheling Li,Rui Zhao,Weidong Xue,Mark A. Bissett. A single step strategy to fabricate graphene fibres via electrochemical exfoliation for micro-supercapacitor applications[J]. Electrochimica Acta,2019. [13]王贵欣,裴志彬,叶长辉.自供能柔性氧化石墨烯湿度传感器的喷墨印刷制备及性能研究[J/OL].无机材料学报,2019(01):1-7[2019-01-21].http://kns.cnki.net/kcms/detail/31.1363.tq.20190115.1129.030.html.
3. 毕业设计(论文)进程安排
2019-1-4~2018-2-24 查阅资料,完成开题报告和外文翻译 2019-2-25~2019-3-10 完成初步实验方案和准备工作。
2019-3-11~2019-4-15 制备go薄膜电极样品 2019-4-16~2019-5-20利用sem、cv等分析测试手段分析电极的性能。
2019-5-21~2018-9-2 毕业论文撰写,准备答辩