闵杰
近期热点
资料介绍
个人简历
教育背景\r2011.10–2015.10德国埃尔朗-纽伦堡大学 博士(有机电子)导师:Christoph J. Brabec教授\r2008.9–2011.07中国矿业大学(北京) 硕士(化学工程与工艺)导师:解强教授;中国科学院化学研究所导师:李永舫院士\r2004.9–2008.07中国矿业大学(北京)本科(化学工程与工艺)\r\r工作经历\r2015.10–2016.12德国埃尔朗-纽伦堡大学 博士后 合作导师:Christoph J. Brabec教授\r2017.01–至今 武汉大学高等研究院研究员、博导研究领域
"""""有机太阳能电池,钙钛矿太阳能电池,光探测等\r\r重点围绕“材料化学-形貌物理-衰减机制-器件工程”的研究链条开展目标导向性基础研究,解决光电领域中关键科学问题和关键技术问题\r1.高效、稳定光电转换材料的理性设计与可控制备\r2.光电材料与器件中的结构和表面界面分析与研究\r3.不同光电体系的工作机理及其动力学本质\r4.材料与器件衰减机制以及相关封装技术的研发"近期论文
Perylene Diimide-Based Cathode Interfacial Materials: Adjustable Molecular Structures and Conformation, Optimized Film Morphology, and Much Improved Performance of Non-Fullerene Polymer Solar Cells. Mater. Chem. Front.. 2019. \r\rA wide-bandgap D–A copolymer donor based on a chlorine substituted acceptor unit for high performance polymer solar cells. J. Mater. Chem. A. 7. 14070-14078. 2019. \r\rA universal layer-by-layer solution-processing approach for efficient non-fullerene organic solar cells. Energy Environ. Sci.. 12. 384-395. 2019. \r\rA Cost Analysis of Fully Solution‐Processed ITO‐Free Organic Solar Modules. Adv. Energy Mater. 9. 1802521. 2018. \r\rPyrene-fused PDI based ternary solar cells: high power conversion efficiency over 10%, and improved device thermal stability. Mater. Chem. Front.. 3. 93-102. 2019. \r\rEffects of bridging atom in donor units and nature of acceptor groups on physical and photovoltaic properties of A-π-D-π-A oligomers. Organic Electronics. 55. 42–49. 2018. \r\rAll-small molecule solar cells based on donor molecule optimization with highly enhanced efficiency and stability. J. Mater. Chem. A. 6. 15675-15683. 2018. \r\rRecent Progress in Hybrid Perovskite Solar Cells Based on p-Type Small Molecules as Hole Transporting Materials. Acta Phys. -Chim. Sin. 34. 1221-1238. 2018. \r\rEvaluation of Electron Donor Materials for Solution‐Processed Organic Solar Cells via a Novel Figure of Merit. Adv. Energy Mater. 7. 1700465. 2017. \r\rGaining further insight into the effects of thermal annealing and solvent vapor annealing on time morphological development and degradation in small molecule solar cells. J. Mater. Chem. A. 5. 18101-18110. 2017. \r\rA multi-objective optimization-based layer-by-layer blade-coating approach for organic solar cells: rational control of vertical stratification for high performance. Energy Environ. Sci. (12). 3118-3132. \r\rAn Oligothiophene–Fullerene Molecule with aBalanced Donor–Acceptor Backbone for High-Performance Single-Component OrganicSolar Cells. Angew.Chem.Int. Ed. (58). 14556 –14561. \r\rSuppressing Photo-oxidation of Non-fullerene Acceptors and Their Blends in Organic Solar Cells by Exploring Material Design and Employing Friendly Stabilizers. J. Mater. Chem. A. (7). 25088-25101. \r\rEnd group tuning in small molecule donors for non-fullerene organic solar cells. Dyes and Pigments. (175). 108078. \r\rSpontaneous open-circuit voltage gain of fully fabricated organic solar cells caused by elimination of interfacial energy disorder. Energy Environ. Sci.. 2019. \r\rSlot-die printed non-fullerene organic solar cells with the highest efficiency of 12.9% for low-cost PV-driven water splitting. Nano Energy. 61. 559-566. 2019. \r\rA new small molecule donor for efficient and stable all small molecule organic solar cells. Org. Electron.. 70. 78-85. 2019. \r\rBenzotriazole-Based Acceptor and Donors, Coupled with Chlorination, Achieve a High VOC of 1.24 V and an Efficiency of 10.5% in Fullerene-Free Organic Solar Cells. Chem. Mater.. 31. 3941-3947. \r\rTernary Organic Solar Cells with Small Nonradiative Recombination Loss. ACS Energy Lett. 4 (5). 1196-1203. \r\rReduced Energy Loss Enabled by a Chlorinated Thiophene-Fused Ending-Group Small Molecular Acceptor for Efficient Nonfullerene Organic Solar Cells with 13.6% Efficiency. Adv. Energy Mater. 9. 1900041. 2019. 相关热点
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