个人简介
周聪华,教授,博士生导师,现就职于中南大学物理学院先进材料超微结构与超快过程研究所(双超所,党支部书记),超微结构与超快过程湖南省重点实验室成员。2000年9月至2009年6月在武汉大学物理学院学习,先后获理学学士、博士(工学)学位;2009年7月入职中南大学物理与电子学院;2011-2014年在中南大学粉末冶金研究院从事博士后研究;2014年赴美国内布拉斯加州立大学访学。致力于高效稳定碳基钙钛矿太阳电池制备与光电转换机制研究,获批国家自然科学基金面上项目、青年项目与省部级科研项目多项;2017年以来在Small、Small Methods、Appl. Phys. Lett.等期刊上发表论文40余篇;申请发明专利6项(授权2项);为Small、Adv. Funct. Mater.、Appl. Phys. Lett.等期刊提供审稿服务;主讲大学物理、现代测试与分析技术等本科生课程;指导本科生、研究生获自由探索、创新创业项目多项。
人才培养:
培养研究生获中南大学优秀博士论文、国家奖学金、汇顶奖学金多人次;毕业生入职湘潭大学、华为、中兴等单位,或继续在国内外重要科研院所深造。
研究方向:
[1] 低温碳基钙钛矿太阳电池:稳定、高效与应用
[2] 银纳米线透明电极:防腐技术及应用
[3] 复杂网络输运动力学:渗流理论、有效通道理论
优秀学生加盟:
[1] 欢迎物理、电子、材料、化学等专业的本科生、研究生加盟课题组
[2] 要求:正心诚意、矢志不渝
联系方式: chzhou@csu.edu.cn
项目支持:
[3] 钙钛矿/碳电极强耦合梯度界面构建与电荷提取复合研究(国家自然科学基金-面上项目No. 62374185,2024/01-2027/12,直接经费55万,立项)
[2] 基于碳电极的无铅钙钛矿太阳电池构筑与界面过程研究(湖南省教育厅科学研究项目-重点项目No. 22A0005,2023/01-2025/12,经费8万,在研)
[1] 基于银纳米线柔性电极的柔性碳基钙钛矿太阳能电池界面研究(国家自然科学基金-面上项目No.61774170,2018/01-2021/12,直接经费63万,结题)
论文发表:
【2024】
[8] Yuhuan Xiao, Conghua Zhou*, Solution-processed lead halide perovskite films for application in perovskite solar cells: from coating methods to growth dynamics, Journal of Physics D: Applied Physics 58 (2025) 033001. (Topical Review, Invited)
[7] Siyuan Lin#, Yuhuan Xiao#, Jiao Ma, Xiaohan Yu, Haipeng Xie, Mei Fang, Conghua Zhou*, Phenylethylammonium iodide induced “in situ healing” behavior for carbon-electrode basing, hole-conductor-free perovskite solar cells, Applied Physics Letters 124 (2024) 253504.
[6] Lili Ke*, Xin Xiong, Ding Hu*, Gang Liu, Conghua Zhou, Hanyue Chen, Ling Li, and Hongxing Li*, Defect Passivation Enabled by Amphiphilic Polymer Additives for Perovskite Solar Cells with Suppressed Charge Recombination. ACS Sustainable Chemistry & Engineering 12(19): 7434-7442 (2024).
[5] Hanyue Chen, Gang Liu*, Lili Ke, Guidong Liu, Conghua Zhou, and Hongxing Li*, Alleviating the Angular Dependence of Perovskite Solar Cells via Light-Harvesting Nanostructure. Solar RRL 2400214 (2024).
[4] Jiao Ma, Siyuan Lin, Mei Fang, Zhenxing Fang, Xiaohan Yu, De’en Guo, Haipeng Xie, Deming Kong, Youzhen Li, Conghua Zhou*, Octylammonium Iodide Induced in-situ Healing behavior at Perovskite / Carbon Interface: the “Slow-Release Effect” Caused by Carbon Black Adsorption, Small 2310196 (2024). https://doi.org/10.1002/smll.202310196.
[3]De’en Guo, Xiaohan Yu, Zhenxing Fang, Heng Peng, Haipeng Xie, Han Huang, Deming Kong, Conghua Zhou*, Improved Interfacial Contact Between “Perovskite/Electron-Transport Layer” by Hydrophilic Molecule to Achieve Efficiency >14%, Carbon Electrode-Based, Hole-Conductor-Free, Low-Temperature Mesoscopic Perovskite Solar Cells. Solar RRL (2024) 2400021. https://doi.org/10.1002/solr.202400021.
[2] Yuhuan Xiao, Xiaohan Yu, Xi Yu, Mei Fang, Youzhen Li, Deming Kong, Conghua Zhou*, Improved contact of "Spiro-OMeTAD / perovskite" interface by hydrophilic 1, 6-hexanediammonium diiodide molecule and the accelerated charge extraction processes, Applied Physics Letters 124 (2024) 073502. https://doi.org/10.1063/5.0188717.
[1] Gang Liu*, Yinghui Li, Hanyue Chen, Lili Ke, Jian Xiong, Conghua Zhou, Hongxing Li*, Amino-rich carbon quantum dots decorated SnO2 ETL with enhanced charge extraction for efficient perovskite solar cells. Journal of Power Sources 589 (2024) 233772. https://doi.org/10.1016/j.jpowsour.2023.233772.
【2023】
[7] Xi Yu, Zhenxing Fang, Siyuan Lin, Shuyue Wu, Mei Fang, Haipeng Xie, Deming Kong, Conghua Zhou*, Polyvinyl Pyrrolidone Induced “Confinement Effect” on PbI2 and the Improvement on Crystallization and Thermal Stability of Perovskite, Small 2306101 (2023).https://doi.org/10.1002/smll.202306101
[6] Siyuan Lin, Zhenxing Fang, Jiao Ma, De'en Guo, Xiaohan Yu, Haipeng Xie, Mei Fang, Dou Zhang, Kechao Zhou, Yongli Gao, Conghua Zhou*,Octylammonium Iodide Induced In-situ Healing at “perovskite/Carbon” Interface to Achieve 85% RH-moisture Stable, Hole-Conductor-Free Perovskite Solar Cells with Power Conversion Efficiency >19%, Small Methods 2300716 (2023). https://doi.org/10.1002/smtd.202300716.
[5] Jiancong Lv, Hongxing Li*, Hanyue Chen, Lili Ke, Wenjuan Du, Jian Xiong, Conghua Zhou, Gang Liu*, Facilitating the formation of SnO2 film via HfO2-modified FTO electrode for efficient perovskite solar cells, Applied Physics Letters 122, 233501 (2023).
[4] Conghua Zhou*, Yongli Gao, Synthesis of Silver and Copper Nanowires and Their Application for Transparent Conductors, Synthesis and Applications of Nanomaterials and Nanocomposites (Chapter, Springer Nature Singapore) 235-270 (https://doi.org/10.1007/978-981-99-1350-3_9)
[3] S. Wu, S. Lin, Z. Shi, D. Guo, H. Huang, X. Zhou, D. Zhang, K. Zhou, W. Zhang, Y. Hu, C. Zhou*, Improved Thermal Stability and Film Uniformity of Halide Perovskite by Confinement Effect brought by Polymer Chains of Polyvinyl Pyrrolidone, Small, 2023, 2207848.
[2] Siyuan Lin, Shuyue Wu, De'en Guo, Han Huang, Xuefan Zhou, Dou Zhang, Kechao Zhou, Wenhao Zhang, Yue Hu, Yongli Gao, Conghua Zhou*, Improved Crystallization of Lead Halide Perovskite in Two-Step Growth Method by Polymer-Assisted “Slow-Release Effect”, Small Methods, 2023, 2201663.
[1] Hanyue Chen, Gang Liu*, Junlong Tian, Lili Ke, Qi Lin, Conghua Zhou, Lingling Wang, Hongxing Li*, Well-organized SnO2 inverse opal monolayer as structured electron transport layer for high-efficiency perovskite solar cells, Applied Physics Letters 122, 043506 (2023). (Editor’s Pick).
【2022】
[8] Qing Rong, De’en Guo, Jiao Ma, Siyuan Lin, Han Huang, Deming Kong, Yongli Gao, Conghua Zhou*, Uneven crystallization of lead halide perovskite in the carbon-electrode based, low-temperature mesoscopic perovskite solar cells, Journal of Applied Physics 132, 205303 (2022) (Featured Article,封面发表).
[7] Zhiqiang Shi, Shuyue Wu, Siyuan Lin, Jia Sun, Han Huang, Deming Kong, Yongli Gao, Conghua Zhou*, Enhanced oxidization and corrosion resistance of silver nanowire based transparent conductor by nickel electroplating to obtain power conversion efficiency > 18 % in perovskite solar cells, Applied Surface Science 609, 155250 (2023).
[6] Jianwen Zeng, Yu Wang, Xiaojuan Zheng, Conghua Zhou*, Dependence of the conductivity of two-dimensional site percolation network on the length-ratio of conducting paths to all bonds: the viewpoint of effective path theory, Journal of Physics D: Applied Physics 55, 414004(2022).
[5]De'en Guo, Jiao Ma, Siyuan Lin, Xiao Guo, Han Huang, Deming Kong, Fuxin Xu, Yongli Gao, Wenhao Zhang, Yue Hu, Conghua Zhou*, SnO2 modified mesoporous ZrO2 as efficient electron-transport layer for carbon-electrode based, low-temperature mesoscopic perovskite solar cells, Applied Physics Letters 120, 263502(2022).
[4] Shan Liu, Shuyue Wu, Pufeihong Xia, Haipeng Xie, Xiaoming Yuan, Youzhen Li, Deming Kong, Han Huang, Yongli Gao, Conghua Zhou*, Improved moisture resistance and interfacial recombination of perovskite solar cells by doping oleylamine in spiro-OMeTAD based hole-transport layer,Applied Physics Letters120, 253503(2022).
[3] Siyuan Lin, Pufeihong Xia, Shuyue Wu, Wenhao Zhang, Yue Hu, Biao Liu, Deming Kong, Han Huang, Yongli Gao, Conghua Zhou*, Applied Physics Letters 120, 103503(2022).
[2] Wenjiao Ma, Ke Yang, Conghua Zhou, Hengfeng Li*, Enhanced dielectric constant and suppressed electrical conductivity in polymer nanocomposite films via loading MXene/TiO2/MoS2 nanosheets, Ceramics International 48,10447(2022)
[1] Hongbing Li, Gang Liu*, Hanyue Chen, Wenjuan Du, Lili Ke*, Hongxing Li, Conghua Zhou, Applied Physics Letters 120, 103502(2022).
【2021】
[2] Pufeihong Xia, De'en Guo, Siyuan Lin, Shan Liu, Han Huang, Deming Kong, Yongli Gao, Wenhao Zhang, Yue Hu, Conghua Zhou*, Simultaneous Improvement of the Power Conversion Efficiency and Stability of Perovskite Solar Cells by Doping PMMA Polymer in Spiro-OMeTAD-Based Hole-Transporting Layer, Solar RRL 2100408 (2021). ( https://doi.org/10.1002/solr.202100408)
[1] JS Zhang, C Wang, H Fu, L Gong, HP He, ZS Fang, CH Zhou, JL Chen, ZS Chao, JC Fan, Low-temperature preparation achieving 10.95%-efficiency of hole-free and carbon-based all-inorganic CsPbI3 perovskite solar cells, Journal of Alloys and Compounds 862, 158454 (2021).
【2020】
[5] Tingting Shi, Siyuan Lin, Mei Fang, Deming Kong, Yongbo Yuan, Yongli Gao, Bingchu Yang, Hongwei Han, Conghua Zhou*, Low-temperature fabrication of carbon-electrode based, hole-conductor-free and mesoscopic perovskite solar cells with power conversion efficiency > 12% and storage-stability > 220 days. Applied Physics Letters 117(16),163501 (2020) (Editor’s Pick).
[4] Zerong Liang, Bingchu Yang*, Anyi Mei, Siyuan Lin, Hongwei Han, Yongbo Yuan, Haipeng Xie, Yongli Gao, Conghua Zhou*, SiO2 nanoparticle-regulated crystallization of lead halide perovskite and improved efficiency of carbon-electrode-based low-temperature planar perovskite solar cells. Chinese Physics B 29, 078401(2020)
[3] Jian-hui Chang, Kun Liu, Si-yuan Lin, Yong-bo Yuan*, Cong-hua Zhou*, Jun-liang Yang*, Solution-processed perovskite solar cells. Journal of Central South University 27(4), 1104-1133(2020) (应邀综述)
[2] Jifei Wang, Shiqiang Luo, Yun Lin, Yifu Chen, Yehao Deng, Zhimin Li, Ke Meng, Gang Chen,Tiantian Huang, Si Xiao, Han Huang, Conghua Zhou, Liming Ding, Jun He, Jinsong Huang, Yongbo Yuan*, Templated growth of oriented layered hybrid perovskites on 3D-like perovskites. Nature Communications 11(1),582 (2020)
[1] Ying Yang, Tian Chen, Dequn Pan,Jing Gao, Congtan Zhu,Feiyu Lin,Conghua Zhou, Qidong Tai, Si Xiao, Yongbo Yuan, Qilin Dai, Yibo Han, Haipeng Xie, Xueyi Guo*, MAPbI(3)/agarose photoactive composite for highly stable unencapsulated perovskite solar cells in humid environment. Nano Energy 67, 104246 (2020).
【2019】
[5] Gang Liu, Bingchu Yang*, Hui Chen, Yuan Zhao, Haipeng Xie, Yongbo Yuan, Yongli Gao and Conghua Zhou*, In situ surface modification of TiO2 by CaTiO3 to improve the UV stability and power conversion efficiency of perovskite solar cells, Applied Physics Letters 115,213501(2019) (Editor’s Pick)
[4] Conghua Zhou*, Siyuan Lin, Carbon Electrode-Based Perovskite Solar Cells: Effect of Bulk Engineering and Interface Engineering on the Power Conversion Properties. Solar RRL 2019, 1900190 (应邀综述).
[3] Jiaqi Yan, Siyuan Lin, Xincan Qiu, Hui Chen, Kangming Li, Yongbo Yuan, Mengqiu Long, Bingchu Yang, Yongli Gao, Conghua Zhou*, Accelerated hole-extraction in carbon-electrode based planar perovskite solar cells by moisture-assisted post-annealing, Applied Physics Letters 114,103503(2019) (Editor’s Pick)
[2] Sichao Tong, Chendi Gong, Chujun Zhang, Gang Liu, Dou Zhang, Conghua Zhou, Jia Sun, Si Xiao, Jun He, Yongli Gao, Junliang Yang*, Fully-printed, flexible cesium-doped triple cation perovskite photodetector. Applied Materials Today 15, 389-397 (2019).
[1] Chengyi Xie, Conghua Zhou, Bin Yang, Liang Shen, Lili Ke, Liming Ding, Yongbo Yuan*, Silicon phthalocyanine passivation for fullerene-free perovskite solar cells with efficient electron extraction. Applied Physics Express 12(6) 064006 (2019).
【2018】
[9] Song He, Xiaomei Xu, Xincan Qiu, Yong He,Conghua Zhou* . Conductivity of two-dimensional disordered nanowire networks: Dependence on length-ratio of conducting paths to all nanowires. Journal of Applied Physics 124, 054302 (2018). (Featured Article)
[8] Gang Liu, Conghua Zhou*, Fang Wan, Kangming Li, Yongbo Yuan, Yongli Gao, Yunzhang Lu, Bingchu Yan*. Dependence of power conversion properties of perovskite solar cells on operating. Applied Physics Letters 113, 113501 (2018).
[7] Hui Chen, Kangming Li, Huang Liu, Yongli Gao, Yongbo Yuan, Bingchu Yang, Conghua Zhou∗. Dependence of power conversion properties of hole-conductor-free mesoscopic perovskite solar cells on the loading of perovskite crystallites. Organic Electronics 61 (2018) 119-124.
[6] Kangming Li, Hui Chen, Huang Liu, Yongbo Yuan, Yongli Gaoa, Bingchu Yang, Conghua Zhou*. Dependence of power conversion properties of the hole-conductor-free mesoscopic perovskite solar cells on the thickness of carbon film. Organic Electronics 62 (2018) 298-303.
[5] Lu Kang, Hui Chen, Zhong-Jian Yang, Yongbo Yuan, Han Huang, Bingchu Yang, Yongli Gao, Conghua Zhou*. Seesaw-like polarized transmission behavior of silver nanowire arrays aligned by off-center spin-coating. Journal of Applied Physics 123 (2018) 205110.
[4] Fang Wan, Xincan Qiu, Hui Chen, Yuquan Liu, Haipeng Xie, Jiao Shi, Han Huang, Yongli Gao, Conghua Zhou*. Accelerated electron extraction and improved UV stability of TiO2 based perovskite solar cells by SnO2 based surface passivation. Organic Electronics 59 (2018) 184-189.
[3] Xincan Qiu, Bingchu Yang∗, Hui Chen, Gang Liu, Yuquan Liu, Yongbo Yuan, Han Huang, Haipeng Xie, Dongmei Niu, Yongli Gao, Conghua Zhou∗, Efficient, stable and flexible perovskite solar cells using two-step solution processed SnO2 layers as electron-transport-material. Organic Electronics 58 (2018) 126-132.
[2] Huang Liu, Bingchu Yang∗, Conghua Zhou∗, Hui Chen, Kangming Li, Gang Liu, Yongbo Yuan, et.al. Efficient and stable hole-conductor-free mesoscopic perovskite solar cells. Organic Electronics 58 (2018) 69-74.
[1] Siyuan Lin, Bingchu Yang*, Conghua Zhou*,Xincan Qiu, Jiaqi Yan, Jiao Shi, Yongbo Yuan, et.al. Efficient and stable planar hole-transport-material-free perovskite solar cells. Organic Electronics 53 (2018) 235–241. (入选高被引文章)
【2017】
[4] Gang Liu, Bingchu Yang*, Baoxing Liu, Chujun Zhang, Si Xiao, Yongbo Yuan, Haipeng Xie, Dongmei Niu, Junliang Yang, Yongli Gao, and Conghua Zhou*, Irreversible light-soaking effect of perovskite solar cells caused by light-induced oxygen vacancies in titanium oxide, Applied Physics Letters 111, 153501 (2017).(被APL编辑部遴选为“Top Article in Device Physics”).
[3] Song He, Xiang Zhang, Bingchu Yang, Xiaomei Xu, Hui Chen, Conghua Zhou*,Low-temperature-cured highly conductive composite of Ag nanowires & polyvinyl alcohol." Chin. Phys. B 26(7): 078103-078107(2017).
[2]Liao Xu, Fang Wan, Yaoguang Rong, Hui Chen, Song He, Xiaomei Xu, Gang Liu, Hongwei Han, Yongbo Yuan, Junliang Yang, Yongli Gao, Bingchu Yang, Conghua Zhou*, Stable monolithic hole-conductor-free perovskite solar cells using TiO2 nanoparticle binding carbon films, Organic Electronics 45,131(2017).
[1]Peng Liu, Bing-chu Yang*, Gang Liu, Run-sheng Wu, Chu-jun Zhang,Fang Wan, Shui-gen Li, Jun-liang Yang, Yong-li Gao, Conghua Zhou*, Improving power conversion efficiency of perovskite solar cells by cooperative LSPR of gold-silver dual nanoparticles, Chin. Phys. B 26 (2017) 058401-7.
【Before 2017】
[17] Xu Xiaomei, He Song, Zhou Conghua*, Xia Xingda, Xu Liao, Chen Hui, Yang Bingchu, Yang Junliang, Largely-increased length of silver nanowires by controlled oxidative etching process in solvothermal reaction and the application in highly transparent and conductive networks, RSC Adv. 6,105895(2016).
[16] Xingda Xia, BingchuYang*, Xiang Zhang, Conghua Zhou*, Enhanced film conductance of silver nanowire-based flexible transparent & conductive networks by bending, Materials Research Express 2,075009, 2015.
[15] Wang XingXing, Yang Bingchu*, Zhou Kechao*, Zhang Dou, Li Zhiyou, Zhou Conghua*, Ordered Porous TiO2 Films Obtained by Freezing and the Application in Dye Sensitized Solar Cells, Current Applied Physics 15, 662, 2015.
[14] Xiong jian, Yang Bingchu*, Zhou Conghua*, Yang Junliang* et al, Enhanced efficiency and stability of polymer solar cells with TiO2 nanoparticles buffer layer, Organic Electronics 15, 835–843 (2014).
[13] Zhou Cong-hua*,Ouyang Jun, Yang Bingchu, Retarded hydrolysis-condensing reactivity of tetrabutyl titanate by acetylacetone and the application in dye-sensitized solar cells. Materials Research Bulletin 48 , 4351-4356 (2013).
[12] Zhou Cong-hua, Zhao Xing-zhong, Yang Bing-chu, Zhang Dou, Li Zhi-you, Zhou Ke-chao*, Effect of poly (ethylene glycol) on coarsening dynamics of titanium dioxide nanocrystallites in hydrothermal reaction and the application in dye sensitized solar cells, Journal of Colloid and Interface Science 374, 9-17 (2012).
[11] Zhou Cong-hua*, Xu Sheng, Yang Ying, Yang Bing-chu, Hu Hao, Quan Zu-ci, Bobby Sebo, Chen Bo-lei; Tai Qi-dong, Sun Zhen-hua, Zhao Xing-zhong, Titanium dioxide sols synthesized by hydrothermal methods using tetrabutyl titanate as starting material and the application in dye sensitized solar cells, Electrochimica Acta 56, 4308-4314. 2011.
[10] Zhou Cong-hua*, Zhao Xing-zhong, Yang Bing-chu, Zhang Dou, Li Zhi-you, Zhou Ke-chao*, Effect of internal resistance on current-voltage characteristicsand performance parameters of dye sensitized solar cells studied by building circuits, Proceedings of 2011 International Conference on Instrumentation, Measurement, Circuits and Systems(ICIMCS 2011), 2, 381-386, Hongkong, 2011.12.11-12.
[9] Zhou Cong-hua, Yang Ying, Zhang Jing, Xu Sheng, Wu Su-juan, Hao Hu, Chen Bo-lei, Tai Qi-dong, Sun Zhen-hua, Zhao Xing-zhong*, Enhanced Electrochemical Performance of the Counterelectrode of Dye Sensitized Solar Cells by Sandblasting. Electrochimica Acta 54, 5320-5325 (2009).
[8] Zhou Cong-hua, Hu Hao, Yang Ying, Chen Bo-lei, Zhang Jing, Wu Su-juan, Xu Sheng, Xiong Xiao-dong, Han Hong-wei, Zhao Xing-zhong*. Effect of thickness on structural, electrical, and electrochemical properties of platinum/titanium bilayer counterelectrode. Journal of Applied Physics 104, 034910-034916 (2008).
[7] Xu Sheng, Zhou Cong-hua, Yang Ying, Hu Hao, Sebo Bobby, Chen Bo-lei, Tai Qi-dong, Zhao Xing-zhong*, Effect of ethanol on optimizing porous films of dye sensitized solar cells. Energy & Fuels 25, 1168-1172(2011).
[6]Yang Ying, Zhou Cong-hua, Xu Sheng, Zhang Jing, Wu Su-Juan, Hu Hao, Chen Bo-Lei, Tai Qi-Dong, Sun Zheng-Hua, Liu Wei, Zhao Xing-Zhong*, Optimization of a quasi-solid-state dye-sensitized solar cell employing nanocrystal-polymer composite electrolyte modified with water and ethanol. Nanotechnology 20, 105204-105212 (2009).
[5] Yang Ying*, Hu Hao, Zhou Conghua, Xu Sheng, Sebo Bobby, Zhao Xing-zhong, Novel agarose polymer electrolyte for quasi-solid state dye sensitized solar cell. Journal of Power Sources 196, 2410-2415 (2011).
[4] Yang Ying, Zhou Cong-hua, Xu Sheng, Hu Hao,Chen Bo-lei, Zhang Jing, Wu Su-juan, Liu Wei, Zhao Xing-zhong*. Improved stability of quasi-solid-state dye-sensitized solar cell based on poly (ethylene oxide)-poly (vinylidene fluoride) polymer blend electrolytes. Journal of Power Sources 185, 1492-1498 (2008).
[3] Yang Ying, Zhang Jing, Zhou Conghua, Wu Sujuan, Xu Sheng, Liu Wei, Han Hongwei, Chen Bolei, Zhao Xing-zhong*,Effect of lithium iodide addition on poly (ethylene oxide)-poly(vinylidene fluoride) polymer-blend electrolyte for dye –sensitized nanocrystalline solar cell, J. Phys. Chem. B 112, 6594-6602, 2008.
[2] Zhang Jing, Yang Ying,Wu Sujuan, Xu Sheng, Zhou Cong-Hua, Hu Hao, Chen Bo-Lei, Xiong Xiaodong, Sebo Bobby, Han Hongwei, Zhao Xingzhong*, Improved photovoltage and performance by aminosilane-modified PEO/P(VDF-HFP) composite polymer electrolyte dye-sensitized solar cells. Electrochimica Acta 53, 5415 (2008).
[1] Wu Sujuan, Han Hongwei, Tai Qidong, Zhang Jing, Xu Sheng, Zhou Conghua, Yang Ying, Hu Hao, Chen Bolei, Zhao Xingzhong, Improvement in dye-sensitized solar cells employing TiO2 electrodes coated with Al2O3 by reactive direct current magnetron sputtering. Journal of Power Sources 182, 119-123(2008).
发明专利:
1) 周聪华,阳军亮,杨兵初,高永立,夏兴达,陆炜俊,颜庚骅,一种高长宽比银纳米线的制备方法与应用(ZL201310302393.7,2016年1月20授权)
2) 杨兵初,熊健,周聪华,阳军亮,高永立,一种高分散性TiO2纳米晶的制备方法和应用(ZL201310364469.9,2015年5月20授权)
3) 周聪华, 张祥, 夏兴达, 阳军亮, 杨兵初,一种低温固化的高导电银浆、导电薄膜及其制备方法(201410272336.3,申请)
4) 周聪华,石婷婷,陈辉,郭赵东, 一种低温介孔碳基钙钛矿太阳能电池及其制备方法(201911119807.6,申请)
5) 周聪华,石志强,林思远,郭得恩,荣青,一种耐腐蚀的银纳米复合复合透明电极及其制备方法(202111418678.8)
6) 周聪华,郭得恩,马姣,一种简易结构的低温介孔碳基钙钛矿太阳能电池(202111213683.5)
工作经历
[1] 2009.7-2013.9
中南大学
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物理与电子学院
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Lecturer
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Lecturer
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讲师
染料敏化太阳能电池
[2] 2013.10-2018.9
中南大学
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物理与电子学院
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Associate Professor
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副教授
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副教授
柔性透明导电薄膜,钙钛矿太阳能电池
[3] 2014.7-2015.1
美国内布纳斯加大学林肯分校
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Group of Professor Huang Jinsong
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Visiting Scholoar
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访问学者
柔性透明导电薄膜,钙钛矿太阳能电池
[4] 2018.10-至今
中南大学
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物理与电子学院
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Professor, Vice Director of ISMUP
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教授
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教授
柔性透明导电薄膜,钙钛矿太阳能电池