研究领域:
新能源材料与器件,主要包括:
可印刷介观钙钛矿太阳能电池
水系锌离子电池
科研成果:
可印刷介观钙钛矿太阳能电池碳电极表面功能化增强空穴收集和传输 国家自然科学基金面上项目
有机-无机交叉自偶合材料跨界面钝化钙钛矿晶体以构建微观电荷转移通道 国家自然科学基金面上项目
新型抗聚集与电子复合功能模块在有机光伏敏化染料结构设计中的应用研究 国家自然科学基金面上项目
n-型有机半导体二次生长技术在单基板钙钛矿太阳能电池中的应用 上海市国际合作与交流项目
学术成果:
[1] Wu Shao, Jie Sheng,Yufei Fu,Jingwen He,Zhihao Deng,Ronghao Cen,and Wenjun Wu*. Achieving Unprecedented Power-Output in 4-Terminal Mirror-Symmetrical Printable Carbon CsPbBr3 Solar Cells through Dual-Solvent Engineering. Energy & Environmental Science, 2025, DOI: 10.1039/D4EE05841K
[2] Wu Shao, Ronghao Cen, Jie Sheng, Dun Ma, Jingshan He, Jingwen He, Tian Ding, and Wenjun Wu*. 28.35 mW cm-2 Power Output Assisted Concentrating Printable CsPbBr3 Solar Cell–Thermoelectric Module Tandem Device Using Two-Pronged Strategy. Device2024, 2, 100285.
[3] Jingshan He, Jingwen He, Dun Ma, Wu Shao, Jie Sheng, Huidong Zhang, Liming Zhang, Can Zou, Tian Ding, Ronghao Cen, Shuang Yang, Qi Chen, Yongzhen Wu, Wenjun Wu*, Wei-Hong Zhu. Implementing a Two-in-One Defect Passivation Strategy Utilizing CsX for High-Performance Printable Carbon-Based Perovskite Solar Cells. Advanced Functional Materials2024, 34 (24), 2405986.
[4] Ronghao Cen, Wu Shao, and Wenjun Wu*. Tri-Step Water-Assisted Strategy for Suppressing Cs4PbBr6 Phase in Printable Carbon-Based CsPbBr3 Solar Cells to Achieve High Stability. Small2024, 20, 2404044.
[5] Jingshan He, Jingwen He, Dun Ma, Jie Sheng, Wu Shao, Tian Ding, and Wenjun Wu*. Competitive Formation Mechanism for Bidentate Passivation of Halogen Vacancies in Perovskite Based on 6-Chloropurine, Small2023, 2305127
[6] Dun Ma, Xiujun He, Jingshan He, Huanxin Guo, Yongzhen Wu, Wenjun Wu*, Weihong Zhu. Selective coordination of polyazin sapanisertib with halide vacancy for printable mesoscopic perovskite solar cells. Chinese Chemical Letters2023, 34 (10): 108629.
[7] Jie Sheng, Jingshan He, Dun Ma, Yuanbo Wang, Wu Shao, Tian Ding, Ronghao Cen, Jingwen He, Zhihao Deng, Wenjun Wu*, Dendritic growth lowers carbon electrode work function for efficient perovskite solar cells. Carbon, 2024, 216, 118577.
[8] Jialing Liu, Jingwen He, Wenjun Wu*. Molecular Symmetry of Small-Molecule Passivating Agents Improves Crystal Quality of Perovskite Solar Cells. ChemSusChem2024, 17 (2), e202301458
[9] Xiaotian Zhu, Wu Shao, Jinhai Huang, and Wenjun Wu*. Sublimation and Recrystallization of CsPbBr₃ Constructing a Perovskite−Carbon Interface to Facilitate Hole Transfer in Printable All-Inorganic Perovskite Solar Cells. ACS Applied Materials & Interfaces 2024, 16, 60321-60330.
[10] Xuan Liu, and Wenjun Wu*. Stripping Superficial polystyrene sulfonate on PEDOT:PSS via dodecyl benzenesulfonic acid for high-performance double-crosslinked hydrogel in flexible supercapacitor. Electrochimica Acta2023, 467,143080.
[11] Zhihao Deng, Wu Shao, Hengyi Wang, Yuanbo Wang, Jie Sheng, Hongchun Mu, Cheng Lian, Wenjun Wu*. Augmenting Specific Capacitance of Ammonium Vanadate Cathode in Aqueous Zinc-Ion Batteries via Barium Doping Directed by Glutamic Acid. Journal of Power Sources2024, 614, 234976.
[12] Yuanbo Wang, Xiaoli Xu, Siyuan Fan, Wenjun Wu*. 3-Aminophenol: A novel redox additive in acidic environment enhancing pseudocapacitance for binary intercrossing hydrogel-based supercapacitor. Journal of Energy Storage2023, 72: 108511.
[13] Jingshan He, Tian Ding, and Wenjun Wu*. Surface Lattice Perturbation of Electron Transport Layer Reducing Oxygen Vacancies for Positive Photovoltaic Effect. Solar RRL2022, 2200226.
[14] Dun Ma, Jie Sheng, Yanzhong Hao, Jingshan He, Ya Zhong, and Wenjun Wu*. Photovoltaic green application of waste toner carbon on fully printable mesoscopic perovskite solar cells. Solar Energy 2021, 228, 439-446.
[15] Xiaotian Zhu, Jie Sheng, Tian Ding, Jingshan He, and Wenjun Wu*. Additive enhanced passivation and lead immobilization of waste expandable polystyrene for perovskite photovoltaics. Solar Energy2023, 266, 112182.
[16] Jialing Liu, Jingwen He, Dun Ma, Jingshan He, and Wenjun Wu*. Chiral Molecular Environment Determining Selective Coordination of Cysteine to Perovskite Halogen Vacancies. Solar RRL2023, 2200935.
[17] Yuting Li, Jingwen He, and Wenjun Wu*. Augmentation of Halide Vacancy Rectification through Copper Ion Polarization in Nonsubstituted Porphyrin for Printable Carbon-Based Perovskite Solar Cells. ACS Applied Energy Materials2024, 7, 9089-9097.
[18] Sai Ma, Xiaoli Xu, and Wenjun Wu*. Dual-Aspect Expanding Electrochemical Characteristics of Flexible Supercapacitors via an Ionic Liquid and a High-Boiling-Point Solvent. ACS Applied Energy Materials2022, 5(3), 3401-3408.
[19] Wu Shao, Jingwen He, Jingshan He, Dun Ma, Jie Sheng, Jialing Liu, Wenjun Wu*. Lattice-Selective Cross-Interface Bidentate Passivation for Efficient Bifacial Tandem Carbon-Based Perovskite Solar Cells. Solar RRL 2023, 7, 2300623.
[20] Wu Shao, and Wenjun Wu*. High-Efficiency (Over 10%) Parallel Tandem Dye-Sensitized Solar Cells Based on Tri-Carbon Electrodes. Transactions of Tianjin University2022, 28(5), 414-422.
[21] Tian Ding, Wenjun Wu*, Nanoscale Pumping Effect of Perovskite via Supported Bilayer Electron Transport Layer for Efficient Printable Mesoscopic Solar Cells. Energy Technology 2024, 2301243
[22] Meng Wang, Jingwen He, Wei Lei, Qianfu Luo, Wenjun Wu*, Wei-Hong Zhu. Enhancing Undergraduate Research Experience through Synthesis and Photovoltaic Applications of Photochromic Organic Sensitizers. Journal of Chemical Education2024, 101 (3), 1154−1161.
[23] Minyu Li, Jie Sheng, and Wenjun Wu*. Enhanced-Performance Electrodes from Biomass-Derived Carbon (Rice Husk) for Printable Perovskite Solar Cells. Energy Technology2024, 2401081.
[24] Wenjun Wu*, Xueqin Sun, Jie Sheng, Wu Shao, and Wei-Hong Zhu. Mentoring Juniors on Crafting a Bidentate Passivator for Carbon-Based Perovskite Solar Cells Using Thiourea as a Thiol Precursor. Journal of Chemical Education2024, 101, 4398-4404.
[25] Jie Sheng, Xiaotian Zhu, Xiaoli Xu, Jingshan He, Dun Ma, Jialing Liu and Wenjun Wu*. EtOH/H2O ratio modulation on carbon for high-Voc (1.03 V) printable mesoscopic perovskite solar cells without any passivation. Materials Advances2023, 4, 1534-1545.
[26] Yan Chen, Dun Ma, Zhiqiang Wang, Jingshan He, Xueqing Gong, and Wenjun Wu*. Tautomeric Dual-Site Passivation for Carbon-Based Printable Mesoscopic Perovskite Solar Cells. Advanced Materials Interfaces2022, 9, 2200326.
[27] Jie Sheng, Xiaoli Xu, and Wenjun Wu*. Manganese doping: A novel approach to enhancing surface wettability of carbon electrodes. Carbon Trends2022, 9, 100217.
[28] Artit Jarusarunchai, Xuan Liu, Wenjun Wu*, and Neil Robertson. Extended oligo-cyclopentadithiophene dyes for liquid and solid-state dye-sensitised solar cells. Sustainable Energy & Fuels2022, 6(8), 2358-2367.
参与出版著作:
著作名称 | 出版日期 | 出版社 |
新型薄膜太阳能电池 | 2022-11 | 科学出版社 |
Printable Mesoscopic Perovskite Solar Cells | 2023-06 | Wiley-VCH |
Handbook of Perovskite Solar Cells | 2024-09 | CRC Press |
教育经历
1996-09至2000-09,河北科技大学,大学本科
2002-09至2005-03,河北科技大学,硕士研究生
2005-03至2008-03,华东理工大学,博士研究生
工作经历
2000-09至2002-09,河北海达化工有限公司,技改
2008-03至2010-03,华东理工大学,博士后研究工作
2016-03至2017-03,爱丁堡大学,访问学者
