中心成员
王宏涛,浙江大学求是特聘教授,浙江大学交叉力学中心执行主任,杰出青年基金获得者,清华大学及哈佛大学博士。曾获第十五届中国力学学会青年科技奖(2017)、优秀青年基金(2013),入选中组部万人计划(2012)、教育部“新世纪优秀人才计划”(2009),曾获全国百篇优秀博士论文提名(2007)、清华大学优秀博士论文一等奖(2004)以及哈佛大学Award of Distinction in Teaching(2007)。
本人一直致力于将国家重大需求与基础研究结合,在纳观及原子尺度探究材料微观结构与宏观性能的力学关联,创新发展微纳米力学原位实验方法、技术以及计算模拟方法。所开展的实验方法、技术及理论研究工作获得了国内外的学术认可与好评,相关成果已应用于国防重点单位和企业。至今已在Nature、 PRL、Nano Lett.、Nature Comm.等期刊发表SCI论文100余篇,SCI他引2000余次,相关成果为Science、Nature等著名期刊引用并积极评价。
近年来,重点推进力学与人工智能的交叉融合。2018年与杨卫院士共同创建浙江大学交叉力学中心,旨在推动人工智能与力学学科交叉融合,以引领力学学科发展:
1)首次提出柔性孪生机器人概念,倡导中国阿凡达计划,发展深度动力机器人软硬件;
2)推动人工智能在力学学科应用,开发基于深度学习的跨尺度算法以及世界首台四维透射电子显微镜设备。
详细研究方向、研究成果及教学情况请见:
浙江大学个人主页:https://person.zju.edu.cn/htw
工 作 经 历
2018/10 –至今,浙江大学交叉力学中心,执行主任
2009/08 –至今,浙江大学航空航天学院,副教授、教授
1. K. Wu, F. Chen, Z. T. Ma, B. K. Guo, Y. C. Lyu, P. Wang, H. S. Yang, Q. Q. Li,Hongtao Wang, and A. M. Nie, In situ TEM and half cell investigation of sodium storage in hexagonal FeSe nanoparticles,Chemical Communications, 2019, 55 (39): 5611-5614
2. Hailin Shen, Zhongtao Ma, Bingchao Yang, Bingkun Guo, Yingchun Lyu, Peng Wang, Hangsheng Yang, Qianqian Li,Hongtao Wang, Zhongyuan Liu, and Anmin Nie, Sodium storage mechanism and electrochemical performance of layered GeP as anode for sodium ion batteries,Journal of Power Sources, 2019, 433 126682,
3. Yeqiang Bu, Zhiming Li, Jiabin Liu,Hongtao Wang, Dierk Raabe, and Wei Yang, Nonbasal Slip Systems Enable a Strong and Ductile Hexagonal-Close-Packed High-Entropy Phase,Physical Review Letters, 2019, 122 (7): 075502
4. Yingjun Liu, Chunyuan Liang, Anran Wei, Yanqiu Jiang, Qishi Tian, Ying Wu, Zhen Xu, Yinfeng Li, Fan Guo, Qiuyan Yang, Weiwei Gao,Hongtao Wang, and Chao Gao, Solder-free Electrical Joule Welding of Macroscopic Graphene Assemblies,Materials Today Nano, 2018, 3 1-8
5. Zhifeng Lei, Xiongjun Liu, Yuan Wu, Hui Wang, Suihe Jiang, Shudao Wang, Xidong Hui, Yidong Wu, Baptiste Gault, Paraskevas Kontis, Dierk Raabe, Lin Gu, Qinghua Zhang, Houwen Chen,Hongtao Wang, Jiabin Liu, Ke An, Qiaoshi Zeng, Tai-Gang Nieh, and Zhaoping Lu, Enhanced strength and ductility in a high-entropy alloy via ordered oxygen complexes,Nature, 2018, 563 (7732): 546-550
6. Peng Wang, Shaofeng Xu, Jiabin Liu, Xiaoyan Li, Yujie Wei,Hongtao Wang, Huajian Gao, and Wei Yang, Atomistic simulation for deforming complex alloys with application toward TWIP steel and associated physical insights,Journal of the Mechanics and Physics of Solids, 2017, 98 290-308
7. Peng Wang, Yuan Wu, Jiabin Liu, andHongtao Wang, Impacts of atomic scale lattice distortion on dislocation activity in high-entropy alloys,Extreme Mechanics Letters, 2017, 17 (Supplement C): 38-42
8. Peng Wang, andHongtao Wang, Meta-Atom Molecular Dynamics for Studying Material Property Dependent Deformation Mechanisms of Alloys,Journal of Applied Mechanics, 2017, 84 (11): 111002-111002-111008
9. Sichao Du, Wei Lu, Ayaz Ali, Pei Zhao, Khurram Shehzad, Hongwei Guo, Lingling Ma, Xuemei Liu, Xiaodong Pi, Peng Wang, Hehai Fang, Zhen Xu, Chao Gao, Yaping Dan, Pingheng Tan,Hongtao Wang, Cheng-Te Lin, Jianyi Yang, Shurong Dong, Zhiyuan Cheng, Erping Li, Wenyan Yin, Jikui Luo, Bin Yu, Tawfique Hasan, Yang Xu, Weida Hu, and Xiangfeng Duan, A Broadband Fluorographene Photodetector,Advanced Materials, 2017, 29 (22)
10.Ke Cao, Peifeng Li, Yizhi Zhang, Tianwu Chen, Xu Wang, Sulin Zhang, Jiabin Liu, andHongtao Wang, In situ tem investigation on ultrafast reversible lithiation and delithiation cycling of Sn@C yolk-shell nanoparticles as anodes for lithium ion batteries,Nano Energy, 2017, 40 (Supplement C): 187-194
11.Yenan Song, Jianing Zhuang, Meng Song, Shaoqian Yin, Yu Cheng, Xuewei Zhang, Miao Wang, Rong Xiang, Yang Xia, Shigeo Maruyama, Pei Zhao, Feng Ding, andHongtao Wang, Epitaxial nucleation of CVD bilayer graphene on copper,Nanoscale, 2016, 8 (48): 20001-20007
12.Xiaoyan Li, Yuming Chen,Hongtao Wang, Haimin Yao, Haitao Huang, Yiu-Wing Mai, Ning Hu, and Limin Zhou, Inserting Sn Nanoparticles into the Pores of TiO2-x-C Nanofibers by Lithiation,Advanced Functional Materials, 2016, 26 (3): 376-383
13.Weiqun Li, Ke Cao,Hongtao Wang, Jiabin Liu, Limin Zhou, and Haimin Yao, Carbon coating may expedite the fracture of carbon-coated silicon core-shell nanoparticles during lithiation,Nanoscale, 2016, 8 (9): 5254-5259
14.Yu Cheng, Yenan Song, Dongchen Zhao, Xuewei Zhang, Shaoqian Yin, Peng Wang, Miao Wang, Yang Xia, Shigeo Maruyama, Pei Zhao, andHongtao Wang, Direct Identification of Multilayer Graphene Stacks on Copper by Optical Microscopy,Chemistry of Materials, 2016, 28 (7): 2165-2171
15.Anmin Nie, Li-Yong Gan, Yingchun Cheng, Qianqian Li, Yifei Yuan, Farzad Mashayek,Hongtao Wang, Robert Klie, Udo Schwingenschlogl, and Reza Shahbazian-Yassar, Twin Boundary-Assisted Lithium Ion Transport,Nano Letters, 2015, 15 (1): 610-615
16.Pei Zhao, Sungjin Kim, Xiao Chen, Erik Einarsson, Miao Wang, Yenan Song,Hongtao Wang, Shohei Chiashi, Rong Xiang, and Shigeo Maruyama, Equilibrium Chemical Vapor Deposition Growth of Bernal-Stacked Bilayer Graphene,ACS Nano, 2014, 8 (11): 11631-11638
17.Yujie Wei, Yongqiang Li, Lianchun Zhu, Yao Liu, Xianqi Lei, Gang Wang, Yanxin Wu, Zhenli Mi, Jiabin Liu,Hongtao Wang, and Huajian Gao, Evading the strength–ductility trade-off dilemma in steel through gradient hierarchical nanotwins,Nature Communications, 2014, 5 3580
18.Anmin Nie, Liyong Gan, Yingchun Cheng, Hasti Asayesh-Ardakani, Qianqian Li, Cezhou Dong, Runzhe Tao, Farzad Mashayek,Hongtao Wang, Udo Schwingenschlgl, Robert F. Klie, and Reza S. Yassar, Atomic-Scale Observation of Lithiation Reaction Front in Nanoscale SnO2 Materials,ACS Nano, 2013, 7 (7): 6203-6211
19.Wenpeng Zhu,Hongtao Wang, and Wei Yang, Orientation- and microstructure-dependent deformation in metal nanowires under bending,Acta Materialia, 2012, 60 (20): 7112-7122
20.Yingbang Yao, QingXiao Wang,Hongtao Wang, Bei Zhang, Chao Zhao, Zhihong Wang, Zhengkui Xu, Ying Wu, Wei Huang, Pei-Yuan Qian, and Xixiang Zhang, Bio-Assembled Nanocomposites in Conch Shells Exhibit Giant Electret Hysteresis,Advanced Materials, 2012, 1-5
21.Hongtao Wang, Qingxiao Wang, Yingchun Cheng, Kun Li, Yingbang Yao, Qiang Zhang, Cezhou Dong, Peng Wang, Udo Schwingenschlgl, Wei Yang, and Xixiang Zhang, Doping Monolayer Graphene with Single Atom Substitutions,Nano Letters, 2012, 12 (1): 141-144
部 分 专 利
1. 王宏涛,刘嘉斌.透射电子显微镜用压电驱动式双轴倾转样品杆.专利申请号:201510090691.3,专利申请日:2015.02.28,专利授权日:2018.06.05.浙江大学.
2. 王宏涛,刘嘉斌.透射电子显微镜原位环境双倾样品杆.专利申请号:201510090402.X,专利申请日:2015.02.28,专利授权日:2019.01.01.浙江大学.
3. 王宏涛,刘嘉斌.透射电子显微镜原位高低频疲劳双倾样品杆,专利申请号:201510090268.3,专利申请日:2015.02.28,专利授权日:2018.06.15.浙江大学.
4. 王宏涛,刘嘉斌,方攸同.一种高铁接触线用的铜合金及其制备方法,专利申请号:201710218266.7,专利申请日:2017.04.05,专利授权日:2018.11.22通知授权.浙江大学.
5. 王宏涛,刘嘉斌,方攸同.一种用于高铁接触线的铜合金及其制备方法,专利申请号:201710217631.2,专利申请日:2017.04.05,专利授权日:2019.1.10通知授权.浙江大学.
6. 王宏涛,刘嘉斌,方攸同.一种高强高韧全奥氏体不锈钢的加工方法.专利申请号201610436538.6,专利申请日:2016.06.17,专利授权日:2018.05.04,浙江大学.
7. 刘嘉斌,王宏涛,方攸同.一种高强高韧不锈钢及其加工方法.专利申请号:201610437107.1,专利申请日:2016.06.17,专利授权日:2017.12.15.浙江大学.
8. 刘嘉斌,侯梦莲,王宏涛,徐雨晴,方攸同,孟亮,王立天,田雨.作为时速400公里以上高速铁路接触线材料应用的超强高导铜合金.专利申请号:201610319172.4,专利申请日:2016.05.16,专利授权日:2018.03.09.浙江大学.
9. 刘嘉斌,侯梦莲,王宏涛,徐雨晴,方攸同,孟亮,王立天,田雨.高强高导铜合金及其作为时速400公里以上高速铁路接触线材料的应用.专利申请号:201610321078.2,专利申请日:2016.05.16,专利授权日:2017.10.13..浙江大学.
10.刘嘉斌,卜叶强,陈陈旭,王宏涛.一种制备密排六方结构的高熵合金的方法.专利申请号:201710329341.7,专利申请日:2017.05.11,专利授权日2018.09.11.浙江大学.
11.刘嘉斌,陈陈旭,孟亮,曾跃武,王宏涛.用于透射电镜的原位拉伸试样的制备方法.专利申请号:201410172126.7,专利申请日:2014.04.28,专利授权日:2016.08.31.浙江大学.
12.刘嘉斌,卜叶强,徐雨晴,王宏涛.一种高通量制备高熵合金的方法.专利申请号:201811440747.3,专利申请日:2018.11.29.浙江大学.
13.刘嘉斌,卜叶强,陈陈旭,徐雨晴,王宏涛.一种原位观察低塑性高强度金属马氏体相变的方法.专利申请号:201710654259.1,专利申请日:2017.08.03.浙江大学.
14.王宏涛,张奕志,刘嘉斌,方攸同.能对样品进行360°旋转的透射电镜样品杆.专利申请号:201611109132.3,专利申请日:2016.12.06.浙江大学.
15.王宏涛,刘嘉斌.透射电子显微镜原位环境双倾样品杆.专利申请号:201510090402.X,专利申请日:2015.02.28.浙江大学.
