汤庆鑫 - 东北师范大学

个人简介

汤庆鑫，教授，物理化学专业，理学博士，博士生导师，全国优秀博士学位论文、国家基金委杰出青年基金获得者、国家优秀青年基金获得者 2010年9月：教授，博士生导师，东北师范大学 2008年9月：教授，湖南大学 2007年12月－2010年8月：博士后，丹麦哥本哈根大学 2007年7月－2008年8月：助理研究员，中国科学院化学研究所 2004年9月－2007年7月：博士，中国科学院化学研究所 2001年9月－2004年7月：硕士，东北师范大学物理系 1997年9月－2001年7月：本科，东北师范大学物理系

研究领域

自2007年开始从事有机单晶微纳材料与器件的研究工作，发现电子辐射对于有机材料的电性能损伤，并开发了多种有机单晶器件制备新方法，成功制备了国际上首个有机微纳单晶器件，于2010年开始从事基于有机材料的柔性电子器件和电路研究，致力于将现代电子产业中广泛使用的光刻技术引入到有机柔弹性材料中，推动了电子皮肤、人工智能、可穿戴电子领域的发展。提出了新型弹性光刻电极制备技术，在国际上首次报道三维可贴合有机单晶晶体管、可贴合有机单晶电路、液相可贴合有机单晶晶体管阵列、透明可贴合有机晶体管、制备了目前世界上性能最高的液相超薄超轻有机场效应器件，实现了国际上第一个全光刻、底栅顶接触随形贴合有机晶体管，其光刻密度为当时随形贴合器件中的最高值，并且基于有机材料制备了国际上首个可拉伸人工突触、首个柔弹性可贴合有机突触晶体管，制备了首个柔性贴合人造器官损伤记忆系统，充分发挥了有机半导体材料在气体传感领域的特性，从应用角度解决了有机半导体室温响应/恢复慢的性能限制，开辟了有机半导体在智能电子皮肤中的全新应用前景。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

S. Y. Wang, X. L. Zhao*, C. Zhang, Y. Y. Yang, J. Liang, Y. P. Ni, M. X. Zhang, J. T. Li, X. L. Ye, J. D. Zhang*, Y. H. Tong, Q. X. Tang*, Y. C. Liu, “Suppressing Interface Strain for Eliminating Double-Slope Behaviors: Towards Ideal Conformable Polymer Field-Effect Transistors”, Advanced Materials 2021, 2101633. X. L. Zhao, S. Y. Wang, Y. P. Ni, Y. H. Tong, Q. X. Tang*, Y. C. Liu, “High-Performance Full-Photolithographic Top-Contact Conformable Organic Transistors for Soft Electronics”, Advanced Science 2021, 2004050. X. L. Ye, X. L. Zhao*, S. Y. Wang, Z. Wei, G. S. Lv, Y. H. Yang, Y. H. Tong, Q. X. Tang*, Y. C. Liu, “Blurred Electrode for Low Contact Resistance in Coplanar Organic Transistors”, ACS Nano 2021, 15, 1155-1166. Y. H. Yang, X. L. Zhao*, S. Y. Wang, C. Zhang, H. Y. Sun, F. Xu, Y. H. Tong*, Q. X. Tang*, Y. C. Liu, “ Exploration of the proton conduction behavior in natural neutral polysaccharides for biodegradable organic synaptic transistors”, J. Mater. Chem. C 2020, 8, 16542-16550. 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. J. Liang, Z. Q. Song, S. Y. Wang, X. L. Zhao*, Y. H. Tong, H. Ren, S. L. Guo, Q. X. Tang*, Y. C. Liu, “Cobweb-Like, Ultra-Thin Porous Polymer Films for Ultrasensitive NO2 Detection”, ACS Applied Materials & Interfaces 2020, 12, 52992−53002. C. Zhang, S. Y. Wang, X. L. Zhao*, Y. H. Yang, Y. H. Tong, M. X. Zhang, Q. X. Tang*, Y. C. Liu, “Sub-Femtojoule-Energy-Consumption Conformable Synaptic Transistors Based on Organic Single-Crystalline Nanoribbons”, Advanced Functional Materials 2020, 2007894. Y. H. Yang, X. L. Zhao*, C. Zhang, Y.H. Tong, J. L. Hu*, H. Zhang, M. H. Yang, X. L. Ye, S. Y. Wang, Z. J. Sun, Q. X. Tang*, Y. C. Liu, “Ultraflexible, Degradable Organic Synaptic Transistors Based on Natural Polysaccharides for Neuromorphic Applications”, Advanced Functional Materials 2020, 2006271. 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. 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. 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. 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. S. Y. Wang,, S. L. Guo, X. L. Ye, Y. H. Tong, X. L. Zhao*, Q. X. Tang*, Y. C. Liu, “Fluorosurfactant-Improved Wettability of Low-Viscosity Organic Semiconductor Solution on Hydrophobic Surfaces for High-Mobility Solution-Processed Organic Transistors”, IEEE Electron Device letters 2020, 41(3), 421-424. Z. J. Sun, S. Yang, P. F. Zhao, J. M. Zhang, Y. H. Yang, X. L. Ye, X. L. Zhao*, N. Cui, Y. H. Tong, Y. C. Liu, X. Chen, and Q. X. Tang*, “Skin-like Ultrasensitive Strain Sensor for Full-Range Detection of Human Health Monitoring”, ACS Applied Materials & Interfaces 2020, 12(11),13287-13295. S. Y. Wang, X. L. Zhao*, Y. H. Tong, Q. X. Tang*, Y. C. Liu, “Directly Spin Coating a Low-Viscosity Organic Semiconductor Solution onto Hydrophobic Surfaces: Toward High-Performance Solution-Processable Organic Transistors”, Advanced Materials Interfaces 2020, 7(8),1901950. 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.‏ 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. 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. 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. 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.