Wen Deng (邓稳)
Central South University
H-index: 14
Asia-China
Top articles of Wen Deng (邓稳)
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
High-efficiency flexible organic solar cells with a polymer-incorporated pseudo-planar heterojunction | Discover Nano | Lin Zhang Yuxin He Wen Deng Xueliang Guo Zhaozhao Bi | 2024/3/4 |
Regulating pre-aggregation in non-halogenated solvent to enhance the efficiency of organic solar cells | Applied Physics Letters | Lin Zhang Xueliang Guo Wen Deng Yuxin He Bocheng Ning | 2024/1/1 |
Organic–inorganic hybrid cathode interlayer for efficient flexible inverted organic solar modules | Applied Physics Letters | Lin Zhang Fang Yang Wen Deng Xueliang Guo Yuxin He | 2023/6/26 |
Controllable metastable growth of perovskite single crystals for highly sensitive X-ray detection | Journal of Materials Chemistry C | Zhihao Zhu Wen Li Wen Deng Weidong He Cheng Yan | 2022 |
Modulation of Vertical Component Distribution for Large‐Area Thick‐Film Organic Solar Cells | Solar RRL | Lin Zhang Shuzhi Yang Bocheng Ning Fang Yang Wen Deng | 2022/1 |
Super hydrophilic, ultra bubble repellent substrate for pinhole free Dion–Jacobson perovskite solar cells | Applied Physics Letters | Wen Deng Fang Wan Xinxin Peng Xiaoxue Ren Jifei Wang | 2022/12/5 |
Ionic Liquid‐Tuned Crystallization for Stable and Efficient Perovskite Solar Cells | Solar RRL | Junhui Ran Hao Wang Wen Deng Haipeng Xie Yongli Gao | 2022/7 |
Thermodynamics-induced injection enhanced deep-blue perovskite quantum dot LEDs | ACS Applied Materials & Interfaces | Cheng Yan Chao Luo Wen Li Xiaodong Peng Jingjing Cao | 2021/11/23 |
A Perovskite‐Based Photodetector with Enhanced Light Absorption, Heat Dissipation, and Humidity Stability | Advanced Photonics Research | Wen Deng Yihao Zhou Trinny Tat Shumao Xu Huaimin Jin | 2021/11 |
Antisolvent‐Induced Fastly Grown All‐Inorganic Perovskite CsPbCl3 Microcrystal Films for High‐Sensitive UV Photodetectors | Advanced Materials Interfaces | Zhihao Zhu Wen Deng Wen Li Fengjun Chun Chao Luo | 2021/3 |