刘飞龙

2022-02-25 09:48:00   来源:    点击:

刘飞龙

(2024-3-20)



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研究领域:光电器件理论物理

 

E-mailfeilongliu@m.scnu.edu.cn

 

工作经历

 

20216月 至今:华南师范大学,华南先进光电子研究院,副研究员,华南师范大学“青年拔尖人才”

 

20189月 至 20215荷兰Simbeyond公司,有机半导体器件物理与理论模拟技术顾问

 

20159月 至 20187月:荷兰埃因霍温理工大学,应用物理系,博士后

导师:Reinder Coehoorn教授(荷兰皇家科学院院士)Peter A. Bobbert教授

 

20126  20128月:美国洛斯阿拉莫斯国家实验室,非线性研究中心,访问学生

导师:Darryl L. Smith研究员,Avadh Saxena研究员

 

教育经历

 

20099  20156月:

美国明尼苏达大学,电子计算机工程系,博士 (电子工程+物理)

导师:P. Paul Ruden教授

 

20059月 至 20096月:

北京大学,信息科学技术学院微电子系,本科 

 

科研项目:

 

科技部国家重点研发计划“新型显示与战略性电子材料”专项 No. 2023YFB36113001,显示应用中薄膜晶体管及有机发光二极管器件工艺全流程仿真技术,课题1. 跨尺度显示器件多物理场仿真工具,2024-012026-1260万元,在研,参与

 

广东省青年人才项目 No. 2021QN02X3692022-122025-1150万元,在研,主持

 

国家自然科学基金委青年基金 No. 62005083,基于格子玻尔兹曼方法的电润湿显示器件理论研究,2021-012023-1224万元,资助期满,主持

 

荷兰技术基金委和德国科研基金委,国际级科研项目,STW-12200 & DFG-WE1863/22-1Modeling of organic light-emitting diodes: From molecule to device (MODEOLED)2017-092018-0866万欧元,已结题,参

 

荷兰科研基金委和荷兰Simbeyond公司,国家级科研项目,16KIEMH013D master equation simulation for next-generation OLEDs (MENGO)2017-042017-085万欧元,已结题,参

 

德国联邦教育科研部,国家级科研项目,UNiverselles Verst?ndnis der Defekte in Materialien für die flexible ELektronik (UNVEiL)2015-092017-0312.5万欧元,已结题,参

 

 

发表期刊论文(一作/通讯):

 

1. Feiling Yang, Harm van Eersel, Jiawei Wang, Quan Niu,* Peter A. Bobbert, Reinder Coehoorn, Feilong Liu,* and Guofu Zhou,* Dilution-induced current-density increase in disordered organic semiconductor devices: A kinetic Monte Carlo study, Physical Review Applied 21, 014050 (2024), Editors Suggestion.

2. Junjun Wu, Xinyu Li, Tao Lin, Lei Zhuang, Biao Tang,* Feilong Liu,* and Guofu Zhou, Electric-field-induced selective directed transport of diverse droplets, ACS Applied Materials & Interfaces 16, 4126 (2024).

3. 刘飞龙, 程彦锟, 张境恒, 唐彪,* 周国富,* “电润湿电子纸显示应用物理研究概述与进展”,物理学报 72, 208501 (2023)“华南师范大学90周年校庆”专辑,入选当期优秀论文。

4. Yongxin Lei, Bin Liu, Lei Zhuang, Yuanyuan Guo, Hailing Sun, Dong Yuan, Biao Tang, Feilong Liu,* and Guofu Zhou,* “Accurate and wide-voltage-range modeling of electrowetting with a lattice Boltzmann approach”, Langmuir 39, 12110 (2023).

5. Lishuai Yu, Qingqing Zhang, Zhengpin Bian, Guangzheng Zuo, Harm van Eersel, Peter A. Bobbert, Reinder Coehoorn, Feilong Liu,* and Guofu Zhou,* “Schottky contact formation between metal electrodes and molecularly doped disordered organic semiconductors”, Physical Review Applied 19, 024041 (2023).

6. Qingqing Zhang, Lishuai Yu, Zhengpin Bian, Dong Yuan, Hailing Sun, Biao Tang, Xubing Lu, Feilong Liu,* and Guofu Zhou,* “Three-dimensional mechanistic modeling of time-dependent dielectric breakdown in polycrystalline thin films”, Physical Review Applied 19, 024008 (2023).

7. 于立帅,苏煜皓,杨菲玲,杨奕琯,刘飞龙*,周国富,“OLED器件电学物理理论综述”,液晶与显示 37, 980 (2022).

8. Feilong Liu, Yuhao Su, Xihong Lin, Li Nian, Bo Wu, Quan Niu, Harm van Eersel, Peter A. Bobbert, Reinder Coehoorn, and Guofu Zhou, Image-force-stabilized interfacial dipole layer impedes charge injection into disordered organic semiconductors, Physical Review Applied 17, 024003 (2022).

9. Feilong Liu, Yue-Yang Liu, Ling Li, Guofu Zhou, Xiangwei Jiang, and Jun-Wei Luo, “Three- dimensional mechanistic modeling of gate leakage current mechanism in high-κ MOSFETs”, Physical Review Applied 13, 024020 (2020).

10. Feilong Liu, Harm van Eersel, Peter A. Bobbert, and Reinder Coehoorn, “Three-dimensional modeling of bipolar charge-carrier transport and recombination in disordered organic semiconductor devices at low voltages”, Physical Review Applied 10, 054007 (2018).

11. Feilong Liu, Harm van Eersel, Bojian Xu, Janine G. E. Wilbers, Michel P. de Jong, Wilfred G. van der Wiel, Peter A. Bobbert, and Reinder Coehoorn, “Effect of Coulomb correlation on charge transport in disordered organic semiconductors”, Physical Review B 96, 205203 (2017).

12. Feilong Liu, Andrea Massé, Pascal Friederich, Franz Symalla, Robert Nitsche, Wolfgang Wenzel, Reinder Coehoorn, and Peter A. Bobbert, “Ab initio modeling of steady-state and time-dependent charge transport in hole-only α-NPD devices”, Applied Physics Letters 109, 243301 (2016).

13. Feilong Liu, Yue Liu, Darryl L. Smith, and P. Paul Ruden, “Device model for graphene spin valves”, IEEE Transactions on Electron Devices 62, 3426 (2015).

14. Feilong Liu, Megan R. Kelley, Scott A. Crooker, Wanyi Nie, Aditya D. Mohite, P. Paul Ruden, and Darryl L. Smith, “Magnetoelectroluminescence of organic heterostructures: Analytical theory and spectrally resolved measurements”, Physical Review B 90, 235314 (2014).

15. Feilong Liu, Wei Xie, Sha Shi, C. Daniel Frisbie, and P. Paul Ruden, “Coupling of channel conductance and gate-to-channel capacitance in electric double layer transistors”, Applied Physics Letters 103, 193304 (2013).

16. Feilong Liu, Yue Liu, Jiaxi Hu, Darryl L. Smith, and P. Paul Ruden, “Rashba-induced spin scattering at graphene edges”, Journal of Applied Physics 114, 093708 (2013).

17. Feilong Liu, Brian K. Crone, P. Paul Ruden, and Darryl L. Smith, “Control of interface microscopic processes in organic bilayer structures and their effect on photovoltaic device performance”, Journal of Applied Physics 113, 044516 (2013).

18. Feilong Liu, P. Paul Ruden, Ian H. Campbell, and Darryl L. Smith, “Electrostatic capacitance in single and double layer organic diodes”, Applied Physics Letters 101, 023501 (2012).

19. Feilong Liu, P. Paul Ruden, Ian H. Campbell, and Darryl L. Smith, “Device model for electronic processes at organic/organic interfaces”, Journal of Applied Physics 111, 094507 (2012).

20. Feilong Liu, P. Paul Ruden, Ian H. Campbell, and Darryl L. Smith, “Exciplex current mechanism for ambipolar bilayer organic light emitting diodes”, Applied Physics Letters 99, 123301 (2011).  

21. Feilong Liu, Jian Zhang, Frank He, Feng Liu, Lining Zhang, and Mansun Chan, A charge-based compact model for predicting the current-voltage and capacitance-voltage characteristics of heavily doped cylindrical surrounding-gate MOSFETs, Solid-State Electronics 53, 49 (2009).

 

学术会议邀请报告

 

1. OLED三维全器件物理模型及其应用首届台州光电功能材料与器件应用高峰论坛,台州,2023.4.14-2023.4.15.

2. Physics of charge injection and Schottky contact for OLEDs: a 3D Monte Carlo simulation study 2023 International Conference on Display Technology (ICDT), 南京, 2023.3.31-2023.4.3.

3. Advanced modeling of OLEDs: physics and applications, International Conference on Amorphous and Nanocrystalline Semiconductors (ICANS 29), 南京, 2022.8.23-2022.8.26.

4. OLED三维全器件物理模型及其应用,第四届有机光电材料与器件发展研讨会,宁波,2022.7.29-2022.7.31.

5. Digital twins for OLED lifetime predictions, 2022 International Conference on Display Technology (ICDT), 福州, 2022.7.9-2022.7.12.

6. OLED三维全器件物理模型及其应用第四届光电材料与器件发展研讨会,广州,2021.11.26-2021.11.28.

7. OLED物理模型及仿真技术第三届中国仿真技术应用大会暨中关村数字化创新国际论坛,北京,2021.9.14-2021.9.15.

 

 

学术期刊审稿

 

1. ACS Applied Materials & Interfaces

2. Applied Physics Letters

3. IEEE Transactions on Electron Devices

4. Journal of Applied Physics 

5. Physica B

6. Physical Review Applied

7. Physical Review B

8. Physical Review B: Rapid Communications

9. Physical Review Letters

10. Physical Review X 

11. Scientific Reports 

12. Thin Solid Films 

13. 中国科学:物理学 力学 天文学

14. 液晶与显示


(更新时间:2024年3月20日)