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胡袁源

发布于:2018-03-19 星期一 15:58:53 点击数:6817

教授

博士生导师

岳麓学者,湖南省青年百人




基本信息

办公室: 湖南大学物电院A212

实验室: 湖南大学物电院A106

Email: yhu@hnu.edu.cn

课题组网页:https://oehu.wordpress.com/

教育背景

2011.10-2015.09    剑桥大学卡文迪许实验室   博士             导师:Prof. Henning Sirringhaus (FRS)  

2008.09-2011.07    国家纳米科学中心             硕士             导师:江潮 研究员

2004.09-2008.07    南京大学物理系                学士



工作履历

2017.09-至今         湖南大学

2015.09-2017.08   加州大学圣巴巴拉分校      博士后        合作导师:Prof. Thuc-Quyen Nguyen


研究领域

有机光电器件物理及应用:

(1) 有机场效应晶体管(OFET)器件物理;

(2) 有机半导体掺杂物理及应用;

(3) 基于有机半导体的柔性电子,可穿戴电子制备与集成。

学术成果

12.  Y. Hu*, Z. Li, L. Jiang, Z. Chen, L. Liao* and E. Wang*, ”Correlation of Molecular Structure and Charge Transport Properties: A Case Study in Naphthalenediimide-Based Copolymer Semiconductors," Advanced Electronic Materials, 4, 1800203 (2018).

11.  Y. Hu*, L. Jiang, Q. Chen, J. Guo and Z. Chen, ”Direct Observation of the Dipole-Induced Energetic Disorder in Rubrene Single-Crystal Transistors by Scanning Kelvin Probe Microscopy," The Journal of Physical Chemistry Letters , 9, 2869-2873 (2018).

10.  Y. Hu*, G. Li, W. Peng and Z. Chen, ”Comparing the Gate Dependence of Contact Resistance and Channel Resistance in Organic Field-Effect Transistors for Understanding the Mobility Overestimation Issue," IEEE Electron Device Letters , 39, 421-423 (2018).

9.    Y. Hu*, G. Li and Z. Chen, ”The Importance of Contact Resistance in High-Mobility Organic Field-Effect Transistors Studied by Scanning Kelvin Probe Microscopy," IEEE Electron Device Letters , 39, 276-279 (2018).

8.    Y. Hu, D. X. Cao, A. T. Lill, L. Jiang, C. –A. Di*, X. Gao, H. Sirringhaus* and T. –Q. Nguyen*, ”Effect of Alkyl-Chain Length on Charge Transport Properties of Organic Semiconductors and Organic Field-Effect Transistors," Advanced Electronic Materials, 4, 1800175 (2018).

7.    Y. Hu, Z. D. Rengert, C. McDowell, M. J. Ford,  M. Wang, A. Karki, A. T. Lill, G. C. Bazan and T. –Q. Nguyen*, ”Doping Polymer Semiconductors by Organic Salts: Toward High-Performance Solution-Processed Organic Field-Effect Transistors," ACS Nano, 12,3938-3946 (2018).


Before work as a PI:

6.    Y. Hu, V. Brus, W. Cao, K. Liao, H. Phan, M. Wang, K. Banerjee, G. C. Bazan and T. –Q. Nguyen, ”Understanding the Device Physics in Polymer-Based Ionic–Organic Ratchets," Advanced Materials, 29,1606464 (2017).

5.    Y. Hu, V. Pecunia, L. Jiang, C. -A. Di, X. Gao and H. Sirringhaus, ”Scanning Kelvin Probe Microscopy Investigation of the Role of Minority Carriers on the Switching Characteristics of Organic Field-Effect Transistors," Advanced Materials, 28,4713-4719 (2016).

4.    Y. Hu, N. Berdunov, C. -A. Di, I. Nandhakumar, F. Zhang, X. Gao, D. Zhu and H. Sirringhaus, ”Effect of Molecular Asymmetry on the Charge Transport Physics of High Mobility n-Type Molecular Semiconductors Investigated by Scanning Kelvin Probe Microscopy," ACS Nano, 8, 6778-6787 (2014).

3.    Y. Hu, C. Warwick, A. Sou, L. Jiang and H. Sirringhaus, ”Fabrication of ultra-flexible, ultra-thin organic field-effect transistors and circuits by a peeling-off method," Journal of Material Chemistry C, 2, 1260-1263 (2014).

2.    Y. Hu, L. Wang, Q. Qi, D. Li and C. Jiang, “Charge Transport Model Based on Single-Layered Grains and Grain Boundaries for Polycrystalline Pentacene Thin-Film Transistors,” Journal of Physical Chemistry C, 115, 23568-23573, (2011).

1.    Y. Hu, Q. Qi and C. Jiang, “Influence of different dielectrics on the first layer grain sizes and its effect on the mobility of pentacene-based thin-film transistors,” Applied Physics Letters, 96, 133311, (2010).



 

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