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个人信息Personal Information
教授 博士生导师 硕士生导师
性别:男
在职信息:在职
所在单位:物理学院
入职时间:2020-06-22
办公地点:山东大学物理学院
山东省济南市山大南路27号
电子邮箱:yinhangqd@126.com
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- [21] 季艺闻. Revealing the Role of Donor/Acceptor Interfaces in Nonfullerene-Acceptor Based Organic Solar Cells: Charge Separation versus Recombination. Journal of Physical Chemistry Letters, 14, 3811, 2023.
- [22] 李敏. Controlling Kinetic Quenching Depth Toward High-Performance and Photo-Stable Organic Solar Cells Printed from a Non-Halogenated Solvent. Advanced functional materials, 33, 2023.
- [23] . Rational control of sequential morphology evolution and vertical distribution toward 17.18% efficiency all-small-molecule organic solar cells. JOULE, 6, 2835, 2022.
- [24] 张康宁. Triggering Favorable Energy Landscape: A General Approach towards Highly-Efficient and Photostable Organic Solar Cells. Energy and Enviromental Science, 2022.
- [25] 陈涛. Fluorination of Terminal Groups Promoting Electron Transfer in Small Molecular Acceptors of Bulk Heterojunction Films. Molecules, 27, 9037, 2022.
- [26] 胡海霞. Rationalizing charge carrier transport in ternary organic solar cells. Applied Physics Letters, 120, 23302, 2022.
- [27] 胡海霞. Rationalizing charge carrier transport in ternary organic solar cells. APPLIED PHYSICS LETTERS Journal, 120, 2022.
- [28] 崔风哲. Ternary-Assisted Sequential Solution Deposition Enables Efficient All-Polymer Solar Cells with Tailored Vertical-Phase Distribution. Advanced functional materials, 2022.
- [29] 陈志豪. Trap State Induced Recombination Effects on Indoor Organic Photovoltaic Cells. ACS Energy Letters, 6, 3203, 2021.
- [30] 乔佳伟. Manipulating the interlayer carrier diffusion and extraction process in organic-inorganic heterojunctions: from 2D to 3D structures. npj 2D Materials and Applications, 6, 2022.
- [31] 杜晓艳. Reducing Limitations of Aggregation-Induced Photocarrier Trapping for Photovoltaic Stability via Tailoring Intermolecular Electron–Phonon Coupling in Highly Efficient Quaternary Polymer Solar Cell.... 先进能源材料, 2021.
- [32] 季艺闻. Synergistic effect of incorporating intra- and inter-molecular charge transfer in nonfullerene acceptor molecules for highly-efficient organic solar cells. Journal of Materials Chemistry A, 9, 16834, 2021.
- [33] 张康宁. Exploring the mechanisms of exciton diffusion improvement in ternary polymer solar cells: From ultrafast to ultraslow temporal scale. Nano Energy, 79, 2020.
- [34] Zhang, Zhuoqiong. Boosting charge and thermal transport - role of insulators in stable and efficient n-type polymer transistors. Journal of Materials Chemistry C, 2021.
- [35] 张康宁. Suppressing Kinetic Aggregation of Non-Fullerene Acceptor via Versatile Alloy States Enables High-Efficiency and Stable Ternary Polymer Solar Cells. Advanced functional materials, 31, 2021.
- [36] 温振川. Recent progress of PM6:Y6-based high efficiency organic solar cells. SURFACES AND INTERFACES, 23, 2021.
- [37] 陈志豪. Organic indoor light harvesters achieving recorded output power over 500% enhancement under thermal radiated illuminances. Science Bulletin, 66, 1641, 2021.
- [38] 陈志豪. Chromaticity manipulation of indoor photovoltaic cells. APPLIED PHYSICS LETTERS, 118, 2021.
- [39] 杨希凯. CdSe quantum dot organic solar cells with improved photovoltaic performance. Journal of Physics D: Applied Physics, 54, 2021.
- [40] 杨云. High performance indoor light harvesters with a wide-gap donor polymer PBDB-T. Organic Electronics: physics, materials, applications, 98, 2021.