个人简介
殷航,教授,博士生导师,硕士生导师。2020年6月加入山东大学物理学院,目前主要从事有机电子学研究。主要研究方向包括:有机半导体中载流子输运分析,有机电子器件制备与性能分析,新型半导体载流子测试平台开发等。近期研究成果主要包括:(1)优化了Ambrosetti-模型,并将该修正模型引入并应用于双传输异质结系统当中;(2)发现了在低驱动力异质结薄膜中一种新的电子传输机制;(3)提出并阐释了有机光伏器件应用于室内光源时的一些光/电学模型及其应用。至今已在Joule,Materials Science Engineering R,Advanced Materials,Advanced Energy Materials,Nano Energy等国际知名期刊发表署名论文。
教育经历Education Background
2014.9 2017.7 香港浸会大学 物理学 哲学博士学位
2012.9 2013.7 香港浸会大学 绿色科技(能源) 理学硕士学位
2008.9 2012.6 曲阜师范大学 物理学 理学学士
工作经历Work Experience
2019.8 2020.5 香港浸会大学
2018.9 2019.7 香港理工大学
2017.9 2018.8 香港浸会大学
2013.11 2014.4 香港城市大学
近期论文
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[1] Donor Polymer Can Assist Electron Transport in Bulk Heterojunction Blends with Small Energetic Offsets. Advanced Materials, 31, 1903998, 2019.
[2] All-Polymer Solar Cells - from Chemical Structure and Device Physics to Photovoltaic Performance. Materials Science & Engineering R, 140, 100542, 2020.
[3] Observing electron transport and percolation in selected bulk heterojunctions bearing fullerene derivatives, non-fullerene small molecules, and polymeric acceptors. Nano Energy, 64, 103950, 2019.
[4] Highly-Transparent and True-Colored Semitransparent Indoor Photovoltaic Cells. Small Methods, 4, 202000136, 2020.
[5] Thick-Film High-Performance Bulk-Heterojunction Solar Cells Retaining 90% PCEs of the Optimized Thin Film Cells. Advanced Electronic Materials, 3, 1700007, 2017.
[6] Enhanced Electron Transport and Heat Transfer Boost Light Stability of Ternary Organic Photovoltaic Cells Incorporating Nonfullerene Small Molecule and Polymer Acceptors. Advanced Electronic Materials, 5, 201900497, 2019.
[7] Designing a Ternary Photovoltaic Cell for Indoor Light Harvesting with a Power Conversion Efficiency Exceeding 20%. Journal of Materials Chemistry A, 6, 8579-8585, 2018.
[8] Porphyrin-based thick-film bulk-heterojunction solar cells for indoor light harvesting. Journal of Materials Chemistry C, 6, 9111-9118, 2018.
[9] Balanced Electric Field Dependent Mobilities: the Key to Access High Fill Factors in Organic Bulk Heterojunction Solar Cells. Solar RRL, 2, 201700239, 2018.
[10] Bulk-heterojunction solar cells with enriched polymer contents. Organic Electronics, 40, 2017.
[11] Rationalizing device performance of perylenediimide derivatives as acceptors for bulk-heterojunction organic solar cells. Organic Electronics, 65, 2019.