刘川

教授

刘川,电子与信息工程学院教授、百人计划、青年珠江学者。在清华大学和英国剑桥大学分别获得学士和博士。博士毕业后,赴日本国立物质材料研究机构(NIMS)任博士后研究员,并赴韩国东国大学任助理教授,2014年回国,加入中山大学的光电材料与技术国家重点实验室、广东省显示材料重点实验室。主要研究半导体材料和原理(电荷传输、电荷注入、有机或氧化物半导体等)、薄膜器件(薄膜晶体管、传感器等)、印刷电子(印刷制程、高精度图形化等)及柔性电子应用(显示电路、逻辑电路、穿戴电子)。

 

招生方向:微电子与固体电子学、光学工程;博士、学硕、专硕

邮箱:liuchuan5@mail.sysu.edu.cn

 

学术兼职和社会服务: 

国际SCI期刊 Semiconductor Science and Technology 编委,英国物理学会Insititute of Physics出版社。

国际SCI期刊 Journal for Society of Information Display 副编辑,德国Wiley出版社。

国际信息显示大会(International Meeting of Information Display, IMID)的组委会成员。

第13届国际薄膜晶体管会议(www.itc2018.com)执行主席。

教育经历: 

硕士、博士,英国剑桥大学物理系(Cavendish Laboratory)

学士,清华大学物理系

 

授课课程: 

本科课程:《电路基础》,《 半导体物理 》,《 薄膜晶体管TFT原理与制程 》

研究生课程:《 高级半导体物理 》、《 印刷电子 》、《有机电子》

研究方向: 

- 半导体材料和原理(电荷传输、电荷注入、有机或氧化物半导体等)

- 薄膜器件(薄膜晶体管、传感器等)

- 印刷电子(印刷制程、高精度图形化等)

- 柔性电子应用(显示电路、逻辑电路、穿戴电子等)

科研项目: 

1.“可印刷的柔性有机薄膜晶体管的复合型介电层研究”,国家自然科学基金,青年科学基金项目(2016),主持。

2. "基于镓锡氧化物的薄膜晶体管的制备、电学特性与缺陷研究”,国家自然科学基金,面上项目(2018),主持。

3.“面向量产和高分辨率显示的低温印刷柔性TFT背板制造的关键技术”,广东省应用型科技研发专项资金项目 (2015) ,主持。

4.“基于溶液法的图形化印刷有机薄膜晶体管和传感器”,广东省自然科学杰出青年基金项目 (2016) ,主持。

5.  入选“广东省培养高层次人才特殊支持计划” (2017),科技创新青年拔尖人才。

6.  入选 广东省青年珠江学者 (2016),学科为微电子与固体电子学。

代表性科研成果: 

代表性成果:

(1) 在室温、大气下,印刷制备出迁移率接近10cm2/Vs的有机晶体管,被SCI杂志他引上百次、被“日经产业”、“日刊工业”等媒体报道。

(2) 实现制备纸上TFT阵列,全低温、印刷制程,且迁移率高于非晶硅。

(3) 提出薄膜晶体管的分析理论和研究方法;提出高精度印刷的方法。

 

国际会议邀请报告:

第12、15、17届 国际信息显示大会 (IMID) 特邀报告

CAD-TFT 2016 (计算机辅助设计薄膜晶体管国际会议)特邀报告

ITC2017(国际薄膜晶体管会议)特邀报告

 

SCI论文70余篇,其中第一作者或(共同)通讯作者的有:

2017

1. “Device Physics of Contact Issues for the Overestimation and Underestimation of Carrier Mobility in Field-Effect Transistors”
Chuan Liu,* Gongtan Li, Riccardo Di Pietro, Jie Huang, Yong-Young Noh, Xuying Liu, and Takeo Minari
Physical Review Applied, 8, 034020 (2017) (IF: 4.808)

2. “Generating One-Dimensional Micro- or Nano-structures with In-Plane Alignment by Vapor-Driven Wetting Kinetics”
Chuan Liu, X. Liu, Y. Xu, H. Sun, Y. Li, Y. Shi, M.V. Lee, T. Yamada, T. Hasegawa, Y.-Y. Noh*, T. Minari*
Materials Horizons, 4 (2), 259-267 (2017) (IF: 10.706)

3. “A unified understanding of charge transport in organic semiconductors: the importance of attenuated delocalization for the carriers”
Chuan Liu,* Kairong Huang, Won-Tae Park, Minmin Li, Tengzhou Yang, Xuying Liu, Lijuan Liang, Takeo Minari, and Yong-Young Noh*
Materials Horizons, DOI: 10.1039/c7mh00091j (2017) (IF: 10.706)

4. “Homogeneous Dewetting on Large-Scale Microdroplet Arrays for Solution-Processing Electronics”
Xuying Liu#(equally contributor), Chuan Liu#(equally contributor), Pan Xiong, Kenji Sakamoto, Takeshi Yasuda, Lijuan Liang, Tengzhou Yang, Masayuki Kanehara, Jun Takeya, and Takeo Minari*
NPG Asia Materials, 9, e409; doi:10.1038/am.2017.123 (2017) (IF: 9.157)

5. “Integrating Poly-Silicon and InGaZnO Thin-Film Transistors for CMOS Inverters”
ChangDong Chen, Bo-Ru Yang*, Chuan Liu,* Xing-Yu Zhou, Yuan-Jun Hsu, Yuan-Chun Wu, Po-Yen Lu, Man Wong, Hoi-Sing Kwok, Han-Ping D Shieh
IEEE Transactions on Electron Devices, 64 (9), 3668-3671(2017) (IF: 2.605)

6. “Low-voltage organic thin-film transistors based on solution-processed hybrid dielectrics: theoretical and experimental studies”
Qiutan Ke, Qian Wu, Lijuan Liang, Yanli Pei, Xubing Lu, Minmin Li, Kairong Huang, Xuying Liu, Chuan Liu*
Semiconductor Science and Technology, 32, 054004 (2017) (IF: 2.305)

7. “Oxide Semiconductor Phototransistor with Organolead Trihalide Perovskite Light Absorber”
Songnan Du, Gongtan Li, Xuhong Cao, Yan Wang, Huiling Lu, Shengdong Zhang, Chuan Liu,* Hang Zhou*
Advanced Electronic Materials, 1600325(2017) (IF: 4.193)

 

2016

1. “Large Enhancement of Carrier Transport in Solution-Processed Field-Effect Transistors by Fluorinated Dielectric Engineering”
D. Khim , Y. Xu , K.-J. Baeg , M. Kang , W.-T. Park , S.-H. Lee, I.-B. Kim , J. Kim , D.-Y. Kim*, Chuan Liu*, Y.-Y. Noh*
Advanced Materials, 28 (3), 518-526 (2016) (IF: 19.791)

2. “Effect of Donor Molecular Structure and Gate Dielectric on Charge-Transporting Characteristics for Isoindigo-Based Donor-Acceptor Conjugated Polymers”
W.-T. Park, G. Kim, C. Yang*, Chuan Liu*, Y.-Y. Noh*
Advanced Functional Materials, 26 (26), 4695-4703(2016) (IF: 12.124)

3. “Universal diffusion-limited injection and the hook effect in organic thin-film transistors”
Chuan Liu*, G. Huseynova, Y. Xu, D. X. Long, W.-T. Park, X. Liu, T. Minari, Y.-Y. Noh*
Scientific Reports, 6, 298911(2016) (IF: 4.259)

4. “Nitrogen-Doped Amorphous InZnSnO Thin Film Transistors With a Tandem Structure for High-Mobility and Reliable Operations”
G. Li, B.-R. Yang*, Chuan Liu*, C.-Y. Lee, Y.-C. Wu, P.-Y. Lu, S. Deng, H.-P. D. Shieh, N. Xu
IEEE Electron Device Letters, 37, 607-610 (2016) (IF: 3.048)

5. “Subgap State Engineering Using Nitrogen Incorporation to Improve Reliability of Amorphous InGaZnO Thin-Film Transistors in Various Stressing Conditions”
G. Li, B.-R. Yang*, Chuan Liu*, C.-Y. Lee, Y.-C. Wu, P.-Y. Lu, S. Deng, H.-P. D. Shieh, N. Xu
IEEE Transactions on Electron Devices, 63 (11), 4309-4314 (2016) (IF: 2.605)

 

2015

1. “Contact Engineering for Organic Field-Effect Transistors”
Chuan Liu, Y. Xu, Y.-Y. Noh*
Materials Today, 18, 79-96 (2015) (IF: 21.695)

2. “Effect of Doping Concentration on Microstructure of Conjugated Polymers and Characteristics in N-type Polymer Field-effect Transistors”
Chuan Liu, J. Jang, Y. Xu, H.-J. Kim, D. Khim, W.-T. Park, Y.-Y. Noh*, D.-Y. Kim*
Advanced Functional Materials, 25,758-767 (2015) (IF: 12.124)

3. “Direct and quantitative understanding of the non-Ohmic contact resistance in organic and oxide thin-film transistors”
Chuan Liu*, T. Minari, Y. Xu, B.-R. Yang, H.-X. Chen, Q. Ke, X. Liu, H. C. Hsiao, C. Y. Lee, Y.-Y. Noh*
Organic Electronics, 27, 253-258 (2015) (IF: 3.399)

4. “Micro-Channel Wetting for Controllable Patterning and Alignment of Silver Nanowire with High Resolution”
B.-R. Yang, W. Cao, G.-S. Liu, H.-J. Chen, Y.-Y. Noh, T.-Minari, H.-C. Hsiao, C.-Y. Lee, H.-P. Shieh, Chuan Liu*
ACS Applied Materials & Interfaces,7, 21433-21441 (2015) (IF: 7.504)

5. “Controlling Charge Injection Properties in Polymer Field-Effect Transistor by Incorporation of Solution Processed Molybdenum Trioxide”
D. X. Long, Y. Xu, H.-X. Wei, Chuan Liu*, Y.-Y. Noh*
Physical Chemistry Chemical Physics,17, 20160-20167 (2015) (IF: 4.493) (4.123)

6. “Solution processed vanadium pentoxide as charge injection layer in polymer field-effect transistor with Mo electrodes”
D. X. Long, Y. Xu, S.-J. Kang, W.-T. Park, E.-Y. Choi, Y.-C. Nah, Chuan Liu*, Y.-Y. Noh*
Organic Electronics, 17, 66-76 (2015) (IF: 3.399)

7. “On the Origin of Improved Charge Transport in Double-Gate In–Ga–Zn–O Thin-Film Transistors: A Low-Frequency Noise Perspective”
Y. Xu*, Chuan Liu*, P. S. K. Amengadez, G.-S. Ryu, H. Wei, F. Balestra, G. Ghibaudo, Y.-Y. Noh*
IEEE Electron Device Letters, 36, 1040-1043 (2015) (IF: 3.048)

8. “Positive gate bias instability alleviated by self-passivation effect in amorphous InGaZnO thin film”
GongTan Li, Bo-Ru Yang*, Chuan Liu*, Chia-Yu Lee, Chih-Yuan Tseng, Chang-Cheng Lo, Alan Lien, ShaoZhi Deng, Han-Ping D Shieh, and NingSheng Xu
Journal of Physics D. Applied Physics, 48, 475107 (2015) (IF: 2.588)

9. “Towards printed perovskite solar cells with cuprous oxide hole transporting layers: a theoretical design”
Y. Wang, Z. Xia, J. Liang, X. Wang, Y. Liu, Chuan Liu*, S. Zhang, H. Zhou*
Semiconductor Science and Technology, 30, 054004 (2015) (IF: 2.305)

(top 10 most read paper in the journal, selected as “2015 Research Highlight”)

 

2010-2014

1. “Improving solution-processed n-type organic field-effect transistors by transfer-printed metal/semiconductor and semiconductor/semiconductor heterojunction”
Chuan Liu, Y. Xu, Z. Liu, H. N. Tsao, K. Müllen, T. Minari, Y.-Y. Noh*, H. Sirringhaus
Organic Electronics, 15, 1884-1889 (2014) (IF: 3.399)

2. “Evaluating injection and transport properties of organic field-effect transistors by the convergence point in transfer-length method”
Chuan Liu, Y. Xu*, G. Ghibaudo, T. Minari*, Y.-Y. Noh*
Applied Physics Letters, 104, 013301-013301-5 (2014) (IF: 3.411)

3. “Large [6, 6]-phenyl C61 butyric acid methyl (PCBM) hexagonal crystals grown by solvent-vapor annealing”
Y. Yang, Chuan Liu*, S. Gao, Y. Li*, X. Wang, Y. Wang, T. Minari, Y. Xu, P. Wang, Y. Zhao, K. Tsukagoshi, Y. Shi
Materials Chemistry and Physics,145(3), 327-333 (2014) (IF: 2.084)

4. “Solution-processed high-LUMO-level polymers in n-type organic field-effect transistors: a comparative study as a semiconducting layer, dielectric layer, or charge injection layer”
Chuan Liu, Y. Xu, X. Liu, T. Minari, H. Sirringhaus, Y.-Y. Noh*
Semiconductor Science and Technology, 30 (4), 044007 (2014) (IF: 2.19) (2.305)

5. “The Critical Impact of the Gate-Dielectric Interfaces on the Contact Resistance of High-Performance Organic Field-Effect Transistors”

Chuan Liu, Y. Xu, Y. Li, W. Scheideler, T. Minari*
Journal of Physical Chemistry C, 117, 12337-12345 (2013) (IF: 4.536)

6. “Self-assembly of Semiconductor/Insulator Interfaces in One-Step Spin-Coating – A Versatile Approach for Organic Field-Effect Transistors” (Perspective)
Chuan Liu, Y. Li, M.V. Lee, A. Kumatani, K. Tsukagoshi*
Physical Chemistry Chemical Physics, 15, 7917-7933 (IF: 4.123) (2013)

7. “Understanding Thickness Dependent Charge Transport in Pentacene Transistors by Low-Frequency Noise”
Y. Xu, Chuan Liu*, W. Scheideler, S. Li, W. Li, Y.-F. Lin, F. Balestra, G. Ghibaudo, K. Tsukagoshi*
IEEE Electron Device Letters, 34, 1298-1300 (2013) (IF: 3.048)

8. “Direct formation of organic semiconducting single crystals by solvent vaporannealing on a polymer base film”
Chuan Liu, T. Minari, Y. Li, A. Kumatani, A. Pan, K. Tsukagoshi*
Journal of Materials Chemistry, 22, 8462-8469 (2012) (IF: 6.626)

9. “Forming Semiconductor/Dielectric Double Layers by One-Step Spin-Coating for Enhancing the Performance of Organic Field-Effect Transistors”
Chuan Liu, Y. Li, T. Minari, K. Takimiya, K. Tsukagoshi*
Organic Electronics, 13, 1146-1151 (2012) (IF: 3.399)

10. “Controlling the crystal formation in solution-process for organic field-effect transistors with high-performance”
Chuan Liu, Y. Li, Y. Xu, T. Minari, S.-L. Li, K. Takimiya, K. Tsukagoshi*
Organic Electronics, 13, 2975-2984 (2012) (IF: 3.399)

11. “Solution-Processable Organic Single Crystals with Bandlike Transport in Field-Effect Transistors”
Chuan Liu, T. Minari, X. Lu, A. Kumatani, K. Takimiya, K. Tsukagoshi*
Advanced Materials, 23, 523-526 (2011) (IF: 19.791)

12. “High-Performance Solution-Deposited Ambipolar Organic Transistors Based on Terrylene Diimides”
Chuan Liu, Z. Liu, H. Lemke, H. N. Tsao, R.C.G. Naber, Y. Li, K. Banger, K. Müllen, M. Nielsen, H. Sirringhaus*
Chemistry of Materials, 22 (6), 2120-2124 (2010) (IF: 9.466)

13. “Electron transport along semiconducting polymer heterojunctions”
Chuan Liu, H. Sirringhaus*
Organic Electronics, 11, 558-563 (2010) (IF: 3.399)

14. “Polymer field-effect transistors based on semiconducting polymer heterojunctions”
Chuan Liu, H. Sirringhaus*
Journal of Applied Physics, 107, 014516-014516-7 (2010) (IF: 2.068)

 

 

论文列表和全文:

https://www.researchgate.net/profile/Chuan_Liu4

 

书籍出版章节

1. K. Tsukagoshi, Y. Li, Chuan Liu, T. Minari, Fabrication method of organic device: self-organization of bi-layer structure from solution-process for organic transistors (塚越一仁/李昀/劉川/三成剛生,有机半导体器件涂布技术:溶液自分层法制备晶体管,シーエムシー出版2012).

2. “Vapor Barrier Films for Flexible Electronics”, by S.J. Kang, Chuan Liu, Y.-Y. Noh, Large Area and Flexible Electronics, 275-290 (A book published by Wiley‐VCH Verlag GmbH & Co. KGaA)

通讯地址:广东省广州市大学城外环东路132号
邮政编码:510006

Copyright © 2007-2016, 中山大学电子与信息工程学院 , Sun Yat-sen University