职务职称:教授,博士生导师 |
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所在单位:材料化学系 |
联系电话:82317113 |
电子邮箱:chenhaining@buaa.edu.cn |
办公地点:4-222 |
个人主页: https://shi.buaa.edu.cn/chenhaining/zh_CN/index.htm |
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Ø 基本情况:
陈海宁,男,教授,博士生导师,2008年和2013年毕业于北航amjs澳金沙门线路,分别获得学士和博士学位;2013-2016年在香港科技大学从事博士后研究工作;2016年入选北航 “卓越百人计划”, 任博导、副教授。目前为amjs澳金沙门线路材料化学系副主任、北京表面工程学会副秘书长等。主要研究方向为光电信息材料和光伏材料。至今发表学术论文100余篇,其中以第一/通讯作者在Adv. Mater., Sci. Bull., Angew. Chem. Int. Ed., Nano Lett., Nano Energy, Acs Energy Lett.等著名期刊上发表SCI论文60余篇,论文总引用数超过6500次,H因子44(Web of Science)。
Ø 主讲课程:
研究生课程:《新能源材料化学》、《光电化学太阳能电池的制备和测试》等
本科生课程:《材料表面防护原理与技术》等
Ø 研究方向:
(1)钙钛矿太阳能电池
(2)电催化分解水材料
(3)功能性薄膜材料
Ø 教学科研成果:
获奖情况:
(1)中国表面工程协会“中表镀-安美特”优秀青年教师
(2)北京航空航天大学“校级优秀班主任”
(3)北京航空航天大学“校级优秀硕士生指导教师”
发明专利:
(1)陈海宁,李卫平,刘慧丛,朱立群。一种引入锂离子增强CsPbI3钙钛矿稳定性的方法,申请号:201910868591.7,申请日:2019年09月16日。
(2)陈海宁,刘慧丛,李卫平,朱立群。混合溶剂制备高纯度和高平整度钙钛矿薄膜的方法,申请号:201910868589.X,申请日:2019年09月16日。
(3)陈海宁,张啟先,刘慧丛,李卫平。一种可大面积制备CsPbX3钙钛矿薄膜的方法,申请号:CN202210337989.X 申请日:2022年03月31日
代表性论文:
[1] Zijing Dong, Weiping Li, Hailiang Wang, Xiaoyu Jiang, Huicong Liu, Liqun Zhu, Haining Chen*. Carbon Nanotubes in Perovskite-based Optoelectronic Devices. Matter, 2022, in press.
[2] Hailiang Wang, Huicong Liu, Zijing Dong, Xueyuan Wei, Yongfa Song, Weiping Li, Liqun Zhu, Yang Bai*, Haining Chen*. Extracting Ammonium Halides by Solvent from the Hybrid Perovskites with Various Dimensions to Promote the Crystallization of CsPbI3 Perovskite. Nano Energy, 2022, in press.
[3] Hailiang Wang, Huicong Liu, Zijing Dong, Xueyuan Wei, Weiping Li, Liqun Zhu, Cheng Zhu, Yang Bai*, Haining Chen*. Moisture is not Always Bad: H2O Accelerates the Conversion of DMAPbI3 Intermediate to CsPbI3 for Boosting the Efficiency of Carbon-based Perovskite Solar Cells to over 16%. Fundamental Research, 2022, in press.
[4] Hailiang Wang, Zijing Dong, Huicong Liu, Weiping Li, Liqun Zhu, Haining Chen*. Roles of Organic Molecules in Inorganic CsPbX3 Perovskite Solar Cells. Advanced Energy Materials 2021, 11, 2002940.
[5] Hailiang Wang, Huicong Liu, Zijing Dong, Tinglu Song, Weiping Li, Liqun Zhu, Yang Bai, Haining Chen*. Size mismatch induces cation segregation in CsPbI3: Forming energy level gradient and 3D/2D heterojunction promotes the efficiency of carbon-based perovskite solar cells to over 15%. Nano Energy, 2021, 89, 106411.
[6] Hailiang Wang, Huicong Liu, Zijing Dong, Weiping Li, Liqun Zhu, Haining Chen*. Composition Manipulation Boosts the Efficiency of Carbon-based CsPbI3 Perovskite Solar Cells to Beyond 14%. Nano Energy, 2021, 84, 105881.
[7] Hailiang Wang, Huicong Liu, Weiping Li, Liqun Zhu, Haining Chen*. Inorganic Perovskite Solar Cells based on Carbon Electrodes. Nano Energy, 2020, 77, 105160.
[8] Sisi Xiang, Zhongheng Fu, Weiping Li, Ya Wei, Jiaming Liu, Huicong Liu, Liqun Zhu, Ruifeng Zhang, Haining Chen*. Highly Air-stable Carbon-based α-CsPbI3 Perovskite Solar Cells with Broadened Optical Spectrum. ACS Energy Letters, 2018, 3, 1824.
[9] Haining Chen*. Two-Step Sequential Deposition of Organometal Halide Perovskite for Photovoltaic Application. Advanced Functional Materials, 2017, 27, 1605654.
[10] Haining Chen*, Shihe Yang. Carbon-Based Perovskite Solar Cells without Hole Transport Materials: The Front Runner to the Market? Advanced Materials, 2017, 29, 1603994.