职  称:教授
研究方向:超柔器件和电路
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个人简历

凝聚态专业,理学博士,教授,博士生导师。自2007年开始从事基于柔性有机材料的分子组装、有机单晶微纳单晶生长和器件制备,气体传感和微物体探测研究工作。研究方向集中在柔性可穿戴器件和电路、三维立体/超柔传感器。承担国家自然科学基金项目3项。发表SCI论文68篇,他人引用近600次,授权国家发明专利2项,美国专利1项。 2016.1-20.17.1 美国佐治亚理工大学 访问学者 2015.7-至今, 东北师范大学, 物理学院, 教授 2010.3-2015.6, 东北师范大学, 物理学院, 副教授 2007.9-2010.8, 丹麦哥本哈根大学,   物理化学,博士后  2007.3–2007.9, 中国科学院化学研究所,  物理化学, 交流  2004.9–2007.7, 中国科学院长春光学精密机械与物理研究所, 凝聚态物理 , 博士 2001.9–2004.7, 东北师范大学,  理论物理, 硕士  1997.9–2001.7, 东北师范大学,  物理教育, 学士   近期发表文章 1. P. F. Zhao, R. M. Zhang, Y. H. Tong*, X. L. Zhao, T. Zhang, Q. X. Tang*, Y. C. Liu, “Strain-Discriminable Pressure/Proximity Sensing of Transparent Stretchable Electronic Skin Based on PEDOT:PSS/SWCNT Electrodes”, ACS Applied Materials & Interfaces 2020, 12(49), 55083-55093. 2. H. Ren, J. M. Zhang, Y. H. Tong*, J. D. Zhang*, X. L. Zhao, N. Cui, Y. Z. Li, X. L. Ye, Q. X. Tang*, Y. C. Liu, “Synchronously Improved Stretchability and Mobility via Tuning Molecular Weight for Intrinsically Stretchable Transistor”, Journal of Materials Chemistry C 2020, 8(44), 15646-15654. 3. P. F. Zhao, R. M. Zhang,Y. H. Tong, X. L. Zhao, Q. X. Tang*, Y. C. Liu, “All-Paper, All-Organic, Cuttable, and Foldable Pressure Sensor with Tuneable Conductivity Polypyrrole”, Advanced Electronic Materials 2020, 61901426. 4. G. S. Lv, H. T. Wang, Y. H. Tong*, L. Dong, X. L. Zhao, P. F. Zhao, Q. X. Tang*, Y. C. Liu, “Flexible, Conformable Organic Semiconductor Proximity Sensor Array for Electronic Skin”, Advanced Materials Interfaces, 2020, 2000306. 5. S. J. Zhou, Y. H. Tong*, H. B. Li, X. L. Zhao, Q. X. Tang*, Y. C. Liu, “A High Mobility of Up to 13 cm(2)V(-1)s(-1) in Dinaphttho-Thieno-Thiophene Single-Crystal Field-Effect Transistors via Self-Assembled Monolayer Selection”, IEEE Electron Device letters 2020, 41(5), 757-760. 6. J. Liang, S. Y. Wang, H. Y. Yu, X. L. Zhao*, H. T. Wang, Y. H. Tong*, Q. X. Tang*, Y. C. Liu, “Solution-processed PDMS/SWCNT porous electrodes with high mass loading: toward high performance all-stretchable-component lithium ion batteries”, Sustainable Energy Fuels 2020, 4(6), 2718-2726.‏ 7. S. Y. Wang, Z. Wei, Y. H. Yang, X. L. Zhao*, Q. X. Tang*, Y. H. Tong*, Y. C. Liu, “Low surface energy interface-derived low-temperature recrystallization behavior of organic thin films for boosting carrier mobility”, Journal of Materials Chemistry C 2019, 7(44), ‏ 13778-13785. 8. X. L. Zhao, S. Yang, Z. J. Sun, N. Cui, P. F. Zhao, Q. X. Tang*, Y. H. Tong*, Y. C. Liu*, “Enhancing the Intrinsic Stretchability of Micropatterned Gold Film by Covalent Linkage of Carbon Nanotubes for Wearable Electronics”, ACS Applied Electronic Materials 2019, 1, 1295-1303. 9. H. T. Wang, M. H. Yang, Y. H. Tong*, X. L. Zhao, Q. X. Tang*, Y. C. Liu, “Manipulating the hysteresis via dielectric in organic field-effect transistors toward synaptic applications”, Organic Electronics 2019, 73,159-165. 10. H. B. Li, Y. H. Tong*, X. L. Zhao, H. T. Wang, Q. X. Tang*, Y. C. Liu, “A comparison of computational equations for understanding the effect of adhesion energy on mobility of DNTT thin-film transistors”, Modern Physics Letters B 2019, 33, 1950282. 11. H. T. Wang, Y. H. Tong*, X. L. Zhao, Z. Q. Song, Q. X. Tang*, Y. C. Liu, “Ultrasensitive Charged Object Detection Based on Rubrene Crystal Sensor”, IEEE Transactions on Electron Devices 2019, 66, 3139-3143. 12. N. Cui, Q. X. Tang*, H. Ren, X. L. Zhao, Y. H. Tong, Y. C. Liu*, “Photolithographic Stretchable Transparent Electrode for All-Solution-Processed Fully Transparent Conformal Organic Transistor Array”, Journal of Materials Chemistry C 2019, 7, 5385-5393. 13. S. Y. Wang, S. J. Zhou, Y. H. Tong*, Z. Q. Song, H. T. Wang, Q. X. Tang*, X. L. Zhao, Y. C. Liu, “Dielectric selection for solution-processed high-mobility TIPS-pentacene microwire field-effect transistors”, Advanced Materials Interfaces 2019, 1801984. 14. Z. Wei, Y. H. Tong*, P. F. Zhao, X. L. Zhao, Q. X. Tang*, Y. C. Liu, “Nature of vacuum-deposited electrode induced thermal irradiation damage on organic transistors”, Applied Surface Science 2019, 480, 523-528. 15. M. L. Liu, H. T. Wang, Q. X. Tang*, X. L. Zhao, Y. H. Tong, Y. C. Liu*, “Ultrathin Air-Stable N-Type Organic Phototransistor Array for Conformal Optoelectronics”, Scientific Reports 2018, 8, 16612. 16. X. D. Yu, M. L. Liu, Y. H. Tong*, X. L. Zhao, Q. X. Tang*, Y. C. Liu, “Conformable n-channel Organic Phototrasistors with Enhanced Photosensitivity and Broadened Response Range via Insertion of an Alq3 Layer”, IEEE Electron Device letters 2018, 39, 1604-1607. 17. P. F. Zhao, Q. X. Tang*, X. L. Zhao, Y. H. Tong, Y. C. Liu*, “Highly stable and flexible transparent conductive polymer electrode patterns for large-scale organic transistors”, Journal of Colloid and Interface Science 2018, 520, 58-63. 18. H. T. Wang, Y. H. Tong*, X. L. Zhao, Q. X. Tang*, and Y. C. Liu, “Flexible, high-sensitive, and wearable strain sensor based on organic crystal for human motion detection”, Organic Electronics 2018, 61, 304-311. 19. M. L. Liu, H. T. Wang, Y. H. Tong*, X. L. Zhao, Q. X. Tang*, and Y. C. Liu,” Ultra-thin free-substrate n-type PTCDI-C13 transistors with bilayer polymer dielectrics”, IEEE Electron Device letters 2018, 39(8), 1183-1186.

社会兼职

获奖情况 (数据来源:科学技术处、社会科学处)

  • 2020-11-04 吉林省科学技术奖自然科学奖一等奖

教学信息 

  • 普通物理1
普通物理2
半导体物理
固体光学性质

科研信息 

  • 1. 国家自然科学基金面上项目,61574032,三维随形贴合迭片内嵌电极及其在有机微
纳单晶场效应器件中的应用研究,2016/01-2019/12,64万元,在研,主持。
2. 国家自然科学基金面上项目,61376074,基于纳米带场效应晶体管的ppb量级高灵
敏SO2半导体传感器研究,2014/01-2017/12,80万元,已结题,主持。
3. 国家自然科学基金青年基金,51103018,四硫富瓦烯类有机小分子超长微纳线的图
案化原位组装,2012/01-2014/12,25万元,已结题,主持


2018年之前
1. 	Z. Q. Song, G. M. Liu, Q. X. Tang, X. L. Zhao, Y. H.Tong, Y. C. Liu, “Controllable gas selectivity at room temperature based on Ph5T2-modified CuPc nanowire field-effect transistors”, Organic Electronics 2017, 48, 68.
2. 	Z. Q. Song, Q. X. Tang, Y. H. Tong, Y. C. Liu, “High-Response Identifiable Gas Sensor Based on a Gas-Dielectric ZnPc Nanobelt FET”, IEEE Electron Device Letters 2017, 38, 1586.
3. 	B. Cai, Z. Q. Song, Y. H. Tong, Q. X. Tang, T. Shaymurat, Y. C. Liu, “A Single Nanobelt Transistor for Gas Identification: Using a Gas-Dielectric Strategy”, Sensors 2016, 16, 917.
4. 	X. L. Zhao, Y. H. Tong, Q. X. Tang, H. K. Tian, Y. C. Liu, Highly sensitive H2S sensors based on ultrathin organic single-crystal microplate transistors, Organic Electronics 2016, 32, 94.
5. 	S. J. Zhou, M. X. Li, Q. X. Tang, Z. Q. Song, Y. H. Tong, Y. C. Liu, “Deposition of pentacene thin film on polydimethylsiloxane elastic dielectric layer for flexible thin-film transistors”, IEEE Electron Device Letters 2017, 38, 1031.
6. 	H. T. Wang, L. L. Deng, Q. X. Tang, Y. H.Tong, Y. C. Liu, “Flexible Organic Single-Crystal Field-Effect Transistor for Ultra-Sensitivity Strain Sensing”, IEEE Electron Device Letters 2017, 38, 1598.
7. 	X. L. Zhao, B. Zhang, Q. X. Tang, X. Y. Ding, S. Y. Wang, Y. Y. Zhou, Y. H. Tong, and Y. C. Liu, “Conformal transistor arrays based on solution-processed organic crystals”, Scientific Reports 2017, 7, 15367.
8. 	X. L. Zhao, X. Y. Ding, Q. X. Tang, Y. H. Tong, Y. C. Liu, “Photolithography-compatible conformal electrodes for high-performance bottom-contact organic single-crystal transistors”, Journal of Materials Chemistry C 2017, 5, 12699-12706.
9. 	Z. Y. Zhao, H. T. Liu, Y. Zhao, C. Cheng, J. Zhao, Q. X. Tang, G. Y. Zhang, Y. Q. Liu, “Anisotropic Charge-Carrier Transport in High-Mobility Donor-Acceptor Conjugated Polymer Semiconductor Films”, Chem. Asian J. 2016, 11, 2725.
10. 	L. Zheng, Q. X. Tang, X. L. Zhao, Y. H. Tong, Y. C. Liu, “Organic Single-Crystal Transistors and Circuits on Ultra-Fine Au Wires With Diameters as Small as 15 μm via Jigsaw Puzzle Method”, IEEE Electron Device Letters 2016, 37, 774.
11. 	H. Gou, G. R. Wang, Y. H. Tong, Q. X. Tang, Y. C. Liu, “Electronic and optoelectronic properties of zinc phthalocyanine single-crystal nanobelt transistors”, Organic Electronics 2016, 30,158-164.
12. 	N. Cui, Y. H. Tong, Q. X. Tang, Y. C. Liu, “Transport in organic single-crystal microbelt for conformal electronics”, Applied Physics Letters 2016, 108, 103502.
13. 	L. L. Deng, Y. H. Tong, G. R. Wang, X. L. Zhao, Q. X. Tang, Y. C. Liu, “Organic Single-Crystal Nanowire Transistor Fabricated by Glass Fiber Mask Method”, IEEE Transactions on Electron Devices 2016, 63, 787.
14. 	M. M. Zhang, Y. H. Tong, Q. X. Tang, Y. C. Liu, “Plasma treatment introduced memory properties in MoS2 field-effect transistors”, Applied Physics Express 2016, 9, 014202.
15. 	P. Zhang, Q. X. Tang, Y. H. Tong, X. L. Zhao, G. R. Wang, Y. C. Liu, “Brush-controlled oriented growth of TCNQ microwire arrays for field-effect transistors”, Journal of Materials Chemistry C 2016, 4, 433. Back cover paper.
16. 	X. L. Zhao , Y. H. Tong , Q. X. Tang, Y. C. Liu*, “Wafer-Scale Coplanar Electrodes for 3D Conformal Organic Single-Crystal Circuits”, Advanced Electronic Materials 2015, 1, 1500239. Cover paper.
17. 	X. Chen, Y. H. Tong, G. R. Wang, Q. X. Tang, Y. C. Liu, “Gate-modulated transport properties and mechanism for nanowire cross junction based on SnO2 semiconductor”, Applied Physics Letters 2015, 107,233503.
18. 	G. R. Wang, Q. X. Tang, Y. H. Tong, W. P. Hu, Y. C. Liu, “Individual single-crystal nanowires as electrodes for organic single-crystal nanodevices”, Journal of Materials Chemistry C 2015, 3, 9534。
19. 	X. L. Zhao, Q. X. Tang, H. K. Tian, Y. H. Tong, Y. C. Liu, “Highly photosensitive thienoacene single crystal microplate transistors via optimized dielectric”, Organic Electronics 2015, 16, 171.
20. 	G. R. Xue, Q. X. Tang, Y. H. Tong, Y. C. Liu, “Size-controlled ambipolar graphene nanoribbon transistors by an all-dry mask method”, Synthetic Metals 2015, 205, 6.
21. 	Y. Liu, Y. J. Han, X. L. Zhao, Y. H. Tong, Q. X. Tang, Y. C. Liu, “Single-crystal tetrathiafulvalene microwire arrays formed by drop-casting method in the saturated solvent atmosphere”, Synthetic Metals 2014,198, 248.
22. 	Y. Liu, X. L. Zhao, B. Cai, T. F. Pei, Y. H. Tong, Q. X. Tang, Y. C. Liu, “Controllable Fabrication of Oriented Micro/Nanowire Arrays of Dibenzo-tetrathiafulvalene by Multiple Drop-Casting Method”, Nanoscale 2014, 6, 1323.
23. 	B. Cai, X. L. Zhao, T. F. Pei, E. Toninelli, Q. X. Tang, Y. H. Tong, Y. C. Liu, “Conductive SnO2:Sb Nanobelts as Electrodes for Detection of NO2 in ppb Level with Ultrahigh Sensitivity” , Applied Physics Letters 2014, 104, 073112.
24. 	Q. B. Min, X. L. Zhao, B. Cai, Y. Liu, Q. X. Tang, Y. H. Tong, W. P. Hu, Y. C. Liu, “An ordered array based on vapor-processed phthalocyanine nanoribbons”, Journal of Materials Chemistry C 2014, 2, 5667.
25. 	X. L. Zhao, T. F. Pei, B. Cai, S. J. Zhou, Q. X. Tang, Y. H. Tong, H. K. Tian, Y. H. Geng, Y. C. Liu, “High ON/OFF ratio single crystal transistors based on ultrathin thienoacene microplates”, Journal of Materials Chemistry C 2014, 2, 5382.
26. 	X. L. Zhao, B. Cai, Q. X. Tang, Y. H. Tong, Y. C. Liu, “One-Dimensional Nanostructure Field-Effect Sensors for Gas Detection”, Sensor 2014, 14, 13999.
27. 	“一种基于场效应气体传感器的鉴定气体种类的方法”,中国发明专利授权号:ZL201510115160.5
28. 	“一种超灵敏场效应型触觉传感器及其在微尺寸物体探测方面的应用”,中国发明专利申请号:201710372703

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