唐　淳-土木工程与力学学院

姓　　名

唐淳

出生年月

1979.10

政治面貌

最高学位

博士

职　　称

教授

任职年月

2017.09

职　　务

任职年月

所在学科

力学

博导/硕导

博导

学习与工作经历

学习经历：
1998-2002，南京航空航天大学，飞行器设计，本科
2002-2009，南京航空航天大学，纳米力学，博士
工作经历：
2006-2010，美国内华达大学拉斯维加斯分校，访问学生
2010-2011，美国内华达大学拉斯维加斯分校，博士后
2012-2015，美国加州大学默塞德分校，副研究员兼讲师
2016-2017，美国内华达大学拉斯维加斯分校，副研究员
2017-现在，江苏大学，土木工程与力学学院，教授/金山特聘教授
2019，江苏省特聘教授（特别支持）
2020，镇江市校地合作引才

学术与社会任职

Graphene杂志编委
美国物理学会(APS)会员
美国材料学会(MRS)会员
Carbon, Nanoscale, Appl. Phys. Lett., J. Phys. Chem. C, Nanotechnology, Scientific Reports等二十多家杂志审稿人
中国力学学会会员
江苏省力学学会理事
江苏省侨联青年委员会常委
镇江市侨联青年委员会常委

研究领域

1，低维材料物理力学与功能性
2，新能源材料及器件
3，微纳米力学方法开发
4，柔性电子多尺度力学
5，固液界面与物质输运

科研项目

非均质二维范德华异质结中的力学问题研究及结构物性调控，国家自然科学基金，12072134,主持，62万元（2021-2024）
江苏省特聘教授(人才计划)，主持，200（+200）万元（2019-2022）
低维蓝磷的热力学稳定性调控及力电耦合机理研究,江苏省自然科学基金，BK20191426，主持，10万元（2019-2022）
镇江市校地合作引才，主持， 5万元（2021）
江苏大学金山特聘教授启动基金，主持，100万元（2017-2021）

主要论著

论文:
52. Mingjie Tong, Yan Jiang, Liya Wang, Chengyuan Wang* and Chun Tang*, Frictional characteristics of graphene layers with embedded nanopores Nanotechnology, 32, 345701 (2021).
51. Yutao Zhao, Guihua Xie, Junlin Zhao, Chengyuan Wang* and Chun Tang*, Modifying mechanical properties of silicon dioxide using porous graphene: molecular dynamics simulations, Mater. Res. Express, 8, 055012 (2021).
50. Ziqia Jia, Guotong Wang, Liya Wang, Chun Tang* and Chengyuan Wang*, Mechanical behavior of 2D hybrid structure fabricated by doping graphene with triangular h-BN cells, J. Phys. Chem. Solid. 154, 110074 (2021).
49. Tongwei Han, Xueyi Wang, Xiaoyan Zhang*, Fabrizio Scarpa* and Chun Tang, Mechanics of penta-graphene with vacancy defects under large amplitude tensile and shear loading, Nanotechnology, 32, 275706 (2021).
48. Yan Jiang*, Huifang Liu, Kaixia Shi, Chun Tang and Juan Song, Effect of annealing temperature on wettability of TiO2/PDA thin films, Surf. Coat. Technol., 411, 126994 (2021).
47. Yang Sun, Liya Wang, Chengyuan Wang* and Chun Tang*, Mechanical Properties of 2D Blue Phosphorous and Temperature Effect, Nanotechnology, 32, 085702 (2021).
46. R. J. Wang, C. Y. Wang*, Y. T. Feng and C. Tang, Mechanistic pathway of water adsorption to impact on the nonlinear elasticity of single-crystalline ZnO NWs, Comput. Mater. Sci. 188, 110155 (2021).
45. Shan Heng, Hongguang Liu, Chengyuan Wang*, Chun Tang*, Ying Luo and Xuesen Wang, Electrical percolation and dynamic piezoresistivity of silver nanoparticle/polydimethylsiloxane films, Mater. Res. Express 7, 045701 (2020).
44. Shiping Jiang, Huiling Wu, Liangzhi Kou, Chun Tang*, Chengyuan Wang* and Changfeng Chen*, Buckling of blue phosphorus nanotubes under axial compression: Insights from molecular dynamics simulations, J. Appl. Phys. 127, 014301 (2020), Featured Article.
43. Junfeng Cui, Zhenyu Zhang*, Dongdong Liu, Danli Zhang, Wei Hu, Li Zou, Yao Lu, Chi Zhang, Huanhuan Lu, Chun Tang*, Nan Jiang*, Ivan Parkin, Dongming Guo, Unprecedented piezoresistance coefficient in strained silicon carbide, Nano Lett. 19, 6569 (2019).
42. Ziyu Zhao, Jinxing Liu, A.K. Soh, and Chun Tang, Temperature-mediated fabrication, stress-induced crystallization and transformation: atomistic simulations of additively manufactured amorphous Cu pillars, Modelling Simul. Mater. Sci. Eng., 27, 075012 (2019).
41. Te Zhang, Guotong Wang, Chengyuan Wang*, Chun Tang*, Faling Zhang, and Ying Luo, Effect of AuNP-AuNP vdW interaction on the mechanics and piezoresistivity of AuNP-polymer nanocomposite, AIP Adv. 9, 055212 (2019).
40. Faling Zhang, Guotong Wang, Chengyuan Wang*, Chun Tang*, Tiger Sun and Xiaozhu Yu, Geometries of Au nanoparticle-chains control their percolation in plolymer, Appl. Phys. Lett. 113, 253105 (2018).
39. R J Wang, C Y Wang*, Y T Feng and Chun Tang, Mechanisms underlying the shape effect on nano-piezoelectricity, Nano Energy, 53， 906-915 (2018)。
38. Guotong Wang, Chengyuan Wang*, Chun Tang*, Faling Zhang, Tiger Sun and Xiaozhu Yu, Two Stage Electrical Percolation of Metal Nanoparticle-Polymer Nanocomposites, J. Phys. Chem. C, 122,8614, （2018）.
37. Yongcheng Liang*, Ping Qin, Lizhen Zhang, Jing Zhang, and Chun Tang*, Designing Superhard Metals: the Case of Low Borides, AIP Adv. 8, 045305 (2018).
36. Zhenyu Zhang*, Junfeng Cui, Bo Wang, Haiyue Jiang, Guoxin Chen, Jinhong Yu, Chengte Lin, Chun Tang, Alexander Hartmaier, Junjie Zhang, Jun Luo, Andreas Rosenkranz, Nan Jiang* and Dongming Guo, In situ TEM observation of rebonding on fractured silicon carbide, Nanoscale, 10, 6261-6269 (2018) Featured on Cover.
35. Ruijie Wang, Chengyuan Wang, Y.T. Feng and Chun Tang, Mechanical Responses of a-axis GaN nanowires Under Axial Loads, Nanotechnology, 29, 095707 (2018).
34. Yongcheng Liang, Zhenbang Gao, Ping Qin, Li Gao and Chun Tang*, The mechanism of anomalous hardening in transition-metal monoborides, Nanoscale, 9, 9112 (2017).
--------------------------
Before Joining Jiangsu University:
33. Liangzhi Kou, Yandong Ma, Chun Tang, Ziqi Sun, Aijun Du and Changfeng Chen, Auxetic and Ferroelastic Borophane: A Novel 2D Material with Negative Possion’s Ratio and Switchable Dirac Transport Channels, Nano Lett. 14, 7910-7914 (2016).
32. M. S. Lodge, Chun Tang, B. T. Blue, W. A. Hubbard, A. Martini, B. D. Dawson and M. Ishigami, Lubricity of gold nanocrystals on graphene measured using quartz crystal microbalance, Sci. Rep. 6, 31837 (2016).
31. Dustin Olson, Hongyu Gao, Chun Tang, Wilfred T. Tysoe, and Ashlie Martini*, Presure dependence of the interfacial structure of potassium chloride films on iron, Thin Solid Films, 593, 150 (2015).
30. Chun Tang, and Lilian P. Davila, Strain-induced structural modifications and size-effects in silica nanowires, J. Appl. Phys. 118, 094302 (2015).
29. Chun Tang, Hidetaka Ishihara, Jaskiranjeet Sodhi, Yen-Chang Chen, Andrew Siordia, Ashlie Martini*, and Vincent C Tung*, Flexible all-carbon photovoltaics with improved thermal stability, J. Solid State Chem. 224, 94 (2015).
28. Chun Tang, and Lilian P. Davila*, Anomalous surface states modify the size-dependent mechanical properties and fracture of silica nanowires. Nanotechnology 25, 435702 (2014).
27. William Wolfs, Chun Tang*, and Changfeng Chen*, Buckling of double- walled carbon nanotubes under compression and bending: Influence of vacancy defects and effect of high-temperature annealing. J. Appl. Phys. 114, 174308 (2013).
26. Christine M. Isborn, Chun Tang, Ashlie Martini, Erin Johnson, Alberto Otero de la Rosa, and Vincent C. Tung, Carbon Nanotube Chirality Determines Efficiency of Electron Transfer to Fullerene in All-Carbon Photovoltaics, J. Phys. Chem. Lett. 4, 2914 (2013).
25. Chun Tang, Tomas Oppenheim, Vincent C. Tung and Ashlie Martini, Structure-Stability Relationships for Graphene-Wrapped Fullerene-Coated Carbon Nanotubes, Carbon, 61, 458 (2013).
24. Liangzhi Kou, Chun Tang, Thomas Frauenheim, and Changfeng Chen, Intrinsic Charge Separation and Tunable Electronic Bandgap of Armchair Graphene Nanoribbons Encapsulated in a Double-Walled Carbon Nanotube, J. Phys. Chem. Lett. 4, 1328 (2013).
23. Liangzhi Kou, Chun Tang, Tim Wehling, Thomas Frauenheim, and Changfeng Chen, Emergent Properties and Trends of a New Class of Carbon Nanocomposites: Graphene Nanoribbons Encapsulated in a Carbon Nanotube, Nanosale 5, 3306-3314 (2013).
22. Zhijiang Ye, Chun Tang, Yalin Dong, and Ashlie Martini, Role of Wrinkle Height in Friction Variation with Number of Graphene Layers, J. Appl. Phys. 112, 116102 (2012).
21. Liangzhi Kou, Chun Tang, Yi Zhang, Thomas Heine, Changfeng Chen, and Thomas Frauenheim, Tuning Magnetism and Electronic Phase Transitions by Strain and Electric Field in Zigzag MoS2 Nanoribbons. J. Phys. Chem. Lett. 3, 2934 (2012).
20. David Santo Pietro, Chun Tang*, and Changfeng Chen*, Enhancing Interwall Load Transfer by Vacancy Defects in Carbon Nanotubes. Appl. Phys. Lett. 100, 033118 (2012).
19. Chun Tang*, Liangzhi Kou and Changfeng Chen, Tunable Magnetism and Band Gap Engineering in Zigzag C2x-BNy Sheets and Ribbons. Chem. Phys. Lett. 523, 98-103 (2012).
18. Liangzhi Kou, Chun Tang, Changfeng Chen and Wanlin Guo, Hybrid W-shaped Graphene Nanoribbons: Distinct Electronic and Transport Properties, J. Appl. Phys. 110, 124312 (2011).
17. Jeremy Feliciano, Chun Tang*, Yingyan Zhang and Changfeng Chen*, Aspect Ratio Dependant Buckling Mode Transition in Single-Walled Carbon Nanotubes under Compression. J. Appl. Phys. 109, 084323 (2011).
16. Liangzhi Kou#, Chun Tang#, Wanlin Guo and Changfeng Chen, Tunable Magnetism in Strained Graphene with Topological Line Defect, ACS Nano 5, 1012 (2011).
15. Chun Tang, Wanlin Guo* and Changfeng Chen*, Structural and mechanical properties of partially unzipped carbon nanotubes, Phys. Rev. B 83, 075410 (2011).
14. Chun Tang, Yi Zhang, Wanlin Guo and Changfeng Chen, Thermally Activated Interlayer Bonding in Multiwalled Carbon Nanotubes, J. Phys. Chem. C, 114, 18091 (2010).13. Chun Tang, Wanlin Guo and Changfeng Chen, Bending Manipulation Induced sp2-sp3 Bond Transition in Carbon Nanotubes, J. Appl. Phys. 108, 026108 (2010).
12. Chun Tang, Wanlin Guo and Changfeng Chen, Tang et al. Reply: Phys. Rev. Lett. 103, 039602 (2009).
11. Chun Tang, Wanlin Guo and Changfeng Chen, Molecular dynamics simulation of tensile elongation of carbon nanotubes: Temperature and size effects, Phys. Rev. B 79, 155436 (2009).
10. Yitao Dai, Wanlin Guo, Zhuhua Zhang, Bin Zhou and Chun Tang, Electric-field-induced deformation in boron nitride nanotubes, J. Phys. D: Appl. Phys. 42, 085403 (2009).
9. Yitao Dai, Chun Tang and Wanlin Guo, Simulation Studies of a “Nanogun” Based on Carbon Nanotubes, Nano Res., 1, 176-183 (2008).
8. Yitao Dai, Wanlin Guo, Chun Li and Chun Tang, Ultrahigh Frequency Longitudinal Oscillators from Single-Walled Carbon Nanotubes, J. Comput. Theor. Nanosci. 5, 1372-1376 (2008).
7. Chun Tang, Wanlin Guo and Changfeng Chen, Mechanism for Superelongation of Carbon Nanotubes at High Temperatures, Phys. Rev. Lett. 100, 175501 (2008).
6. Bin Zhou, Wanlin Guo and Chun Tang, Chemisorption of hydrogen molecules on carbon nanotubes: charging effect from first-principles calculations, Nanotechnology, 19, 075077 (2008).
5. Xiaojie Duan, Chun Tang, Jin Zhang, Wanlin Guo and Zhongfan Liu, Two Distinct Buckling Modes in Carbon Nanotube Bending, Nano Lett. 7, 143-148 (2007).
4. Wanlin Guo, Chun Tang and Yufeng Guo, Nanointelligent materials and systems, Int. J. Nanoscience. 6, 671-676 (2006).
3. Chun Tang, Wanlin Guo and Yufeng Guo, Electrostrictive effect on electronic structures of carbon nanotubes, Appl. Phys. Lett. 88, 243112 (2006).
2. Wanlin Guo and Chun Tang, Molecular Physical Mechanics and Multi-Physics Scale Studies. Int. J. Mult. Comp. Eng. 4, 115-126 (2006).
1. Chun Tang, Wanlin Guo and Yufeng Guo, Carbon nanotubes---A new kind of giant electrostrictive intelligent nano-material, Physics 33, 396-399 (2004) (in Chinese)

重要学术活动

2018-Sep,第15届全国物理力学学术会议（邀请报告），合肥
2018-Aug, 国际华人计算力学大会2018，南京
2018-Jun，第11届计算纳米科学与新能源材料国际研讨会，河南新乡
2018-May，华东力学沙龙，江苏无锡
2018-Jan，空天结构系统多尺度研讨会，南京航空航天大学
2017-Nov, 西北工业大学力学论坛
2017-Oct, Materials Science & Technology 2017, Pittsburgh, PA. (invited talk).
2017-Sep, 碳纳米材料力学性能及器件的分子动力学研究,哈尔滨工业大学深圳研究院
2017-Sep, 碳纳米材料力学性能及器件的分子动力学研究, 江南大学
2017-Aug, 中国力学大会2017暨庆祝中国力学学会成立60周年大会
2017-May, Molecular dynamics simulations of mechanical and dynamical properties of carbon nanomaterials, UNLV Hipsec Seminar, Las Vegas, USA.
2017-Jan, Atomistic simulation assisted material properties exploration and device design, Guangxi University, China
2015-May, (Invited Talk) Applications of molecular dynamics in studying structural properties of nanomaterials, Frontier Materials Science Seminar Series, Jilin University, China.
2014-April, Materials Research Society Spring Meeting, San Francisco, CA.
2014-Februray, Mechanical Properties of One-Dimensional Nanomaterials via Computational Approach, BEST Seminar, University of California,Merced
2013-April, Wrapping Behavior and Structural Stability of C60-Coated, Graphene-Wrapped Carbon Nanotubes, Materials Research Society Spring Meeting, San Francisco, CA.
2013-April, Mechanical Properties and Fracture Behavior of Silica Nanowires: Size and Surface Effects, Materials Research Society Spring Meeting, San Francisco, CA.
2012-September, MEAM Graduate Program Seminar Series, University of California, Merced CA.
2011-September, Computational study of mechanical and electronic properties of carbon-based nanoscale materials., QSB/BEST Seminar, University of California, Merced.
2011-March, Modifying Electronic and Magnetic Properties of BCN sheets by Boron Nitride Domain Size and Tensile Strain, APS March Meeting, Dallas, TX.
2011-March, Aspect Ratio Dependant Buckling Mode Transition in Single-Walled Carbon Nanotubes under Compression, APS March Meeting, Dallas, TX.
2010-December, MRS Fall Meeting, Boston, MA.
2010-October, (Invited Talk) Nanomechanics of Carbon Nanotubes at High Temperature and Large Strain, School of Engineering, University of Western Sydney. Australia.
2010-March, Stability and mechanical properties of partially unzipped carbon nanotubes, APS March Meeting, Potland, OR.
2010-March, Size effect and sp3 bond formation in carbon nanotube bending, APS March Meeting, Potland, OR.
2009-March, APS March Meeting, Pittsburgh, PA.
2008-March, APS March Meeting, New Orleans, LA.

其　　他

　　个人网站：www.tangchunlv.com

联系方式

　　tangchun_at_ujs_dot_edu_dot_cn