1. 基本情况
姓 名:王 伟
出生年月:1990年10月
职 称:副教授,硕士生导师
学 位:工学博士
电子邮箱:w_wei2013@zzu.edu.cn
研究之门ResearchGate:https://www.researchgate.net/profile/Wei-Wang-67
所属实验室:纳米光机电与生物医学工程实验室(http://www.wei-lab.top/ )
招生信息:欢迎具有力学、机械、材料背景的同学报考硕士研究生
欢迎大二、大三年级学生参与本科生研究课题
2. 研究领域
(1)振动能量俘获及应用
(2)智能材料与结构
(3)精密仪器与智能装备
(4)非线性振动与系统辨识
(5)柔性压电/热电材料
3. 教育及工作经历
2023.03- 至 今:郑州大学,力学与安全工程学院,副教授
2020.06-2023.03:郑州大学,力学与安全工程学院,讲师、校聘副教授
2016.03-2020.03:西安交通大学,机械工程,工学博士,导师:曹军义 教授
2018.01-2019.12:多伦多大学,机械与工业工程系,联合培养博士生(CSC),导师:Prof. Hani E. Naguib
2013.09-2016.02:西安交通大学,机械制造及其自动化,工学硕士,导师:曹军义 教授
2009.09-2013.06:吉林大学,工业工程,工学学士
4. 科研项目
(1)国家自然科学基金青年项目:非对称多稳态压电能量俘获的非线性机理及优化控制策略(主持,No. 12202400,30万元)
(2)河南省重点研发与推广专项(科技攻关):人体运动的柔性能量俘获及步态监测方法研究 (主持,No. 212102310248,10万元)
(3)中国博士后科学基金面上项目:非对称多稳态压电能量俘获的非线性机理及优化控制(主持,No. 2020M682336,直接经费8万元,河南省配套8万元)
(4)郑州大学求是教师科研启动经费:非对称多稳态压电能量俘获的非线性机理及优化控制(主持,12万元)
(5)现代设计及转子轴承系统教育部实验室开放课题:轴承自供能监测的智能压电结构设计(主持)
5. 荣誉和奖励
(1)2022年4月博士学位论文被评为“西安交通大学优秀博士学位论文”
(2)2019年11月荣获“西安交通大学优秀博士研究生标兵”
(3)2017年5月荣获国际物理学会最佳海报奖Institute of Physics Best Poster Prize(第一完成人)
(4)2016年12月荣获GE基金会科技创新大赛二等奖(独立完成人,全国第3名)
(5)2016年11月荣获“陕西省第二届研究生创新成果展”一等奖(第二完成人)
(6)2017、2018、2019年荣获博士研究生国家奖学金
6. 学术成果
期刊论文
1.Wang W., Cao J.*, Zhang N., Lin J., Liao W. H. Magnetic-spring based energy harvesting from human motions: Design, modeling and experiments. Energy Conversion and Management, 2017, 132: 189-197.
(IF= 11.533,中科院一区,ESI高被引论文)
2.Wang W.*, Zhang Y., Wei Z.H., Cao J. Design and numerical investigation of an ultra-wide bandwidth rolling magnet bistable electromagnetic harvester. Energy, 2022, 261: 125311.
(IF=8.857,中科院一区)
3.Wang W., Cao J.*, Bowen C. R., Zhou S. X., Lin J. Optimum resistance analysis and experimental verification of nonlinear piezoelectric energy harvesting from human motions. Energy, 2017, 118: 221-230.
(IF=8.857,中科院一区)
4.Wang W., Cao J.*, Mallick D., Roy S., Lin J. Comparison of harmonic balance and multi-scale method in characterizing the response of monostable energy harvesters. Mechanical Systems and Signal Processing, 2018, 108: 252-261.
(IF= 8.934,中科院一区)
5.Wang W.*, Li B., Liu S., Wei Z.H.*. Bifurcation analysis and nonlinear dynamics of a rolling magnet multistable electromagnetic energy harvester. Communications in Nonlinear Science and Numerical Simulation, 2023, 118, 107027.
(IF=4.186,中科院二区Top)
6.Wang W., Cao J.*, Bowen C. R., Inman D. J., Lin J. Performance enhancement of nonlinear asymmetric bistable energy harvesting from harmonic, random and human motion excitations. Applied Physics Letters, 2018, 112(21): 213903.
(IF=3.971,中科院二区Top,Nature index期刊,论文被遴选为“Top Articles in Energy Conversion and Storage”)
7.Wang W., Jiao S., Cao J., Naguib H.E.*. Zinc oxide/carbon nanotube nanocomposite for high-performance flexible supercapacitor with sensing ability. Electrochimica Acta, 2020 350:136353.
(IF=7.336,中科院二区Top)
8.Wang W., Cao J.*, Bowen C. R., Zhang Y., Lin J. Nonlinear dynamics and performance enhancement of asymmetric potential bistable energy harvesters. Nonlinear Dynamics, 2018, 94: 1183–1194.
(IF=5.741,中科院二区)
9.Wang W.*, Wei H., Wei ZH. Numerical analysis of a magnetic-spring-based piecewise nonlinear electromagnetic energy harvester. European Physical Journal Plus, 2022, 137(1): 56.
(IF= 3.758,中科院三区)
10.Wang W. *, Cao J., Wei Z. H., et al. Stochastic analysis of asymmetric monostable harvesters driven by Gaussian white noise with moment differential equations. European Physical Journal Plus, 2021, 136(1): 1-16.
(IF= 3.758,中科院三区)
11.Wang W., Cao J.*, Bowen C.R., Litak G. Probability and output analysis of asymmetric bistable energy harvesters subjected to Gaussian white noise. European Physical Journal Plus, 2019, 134: 558.
(IF= 3.758,中科院三区)
12.Wang W. *, Cao J., Wei Z. H., et al. Approximate Fokker–Planck–Kolmogorov equation analysis for asymmetric multistable energy harvesters excited by white noise. Journal of Statistical Mechanics: Theory and Experiment, 2021, 2021(2): 023407.
(IF=2.234中科院三区)
13.Huang C., Wang L., Wang W.* (通信作者), Wang K. Sensitivity-based nonlinear restoring force identification of multistable piezoelectric energy harvesters. European Physical Journal Plus, 2022, 137(2): 1-19.
(IF= 3.758,中科院三区)
14.Wang W.*, Zhang Y., Bowen CR., Wei ZH, Cao J. Energy Harvesting from Ultra-low-Frequency Vibrations Through a Quasi-zero Stiffness Electromagnetic Energy Harvester. Journal of Vibration Engineering & Technologies, (2022).
(IF=2.333,中科院三区)
15.Wang W., Cao J.*, Bowen C.R., Litak G. Nonlinear Response Identification of an Asymmetric Bistable Harvester Excited At Different Bias Angles by Multiscale Entropy and Recurrence Plot. ASME Journal of Computational and Nonlinear Dynamics, 2020.
(IF=1.872,ASME会刊)
16.Wang W., Cao J.*, Bowen C.R., Litak G. Multiple solutions of asymmetric potential bistable energy harvesters: numerical simulation and experimental validation. European Physical Journal B, 2018, 91: 254.
(IF=1.398,中科院四区)
17.Wang W.*, Zhang Y., Cao J., et al. Possible strategies for performance enhancement of asymmetric potential bistable energy harvesters by orbit jumps. European Physical Journal B, 2022, 95 (58).
(IF=1.398,中科院四区)
18.Liu S, Wang W.* (通信作者). Response Analysis of Asymmetric Monostable Harvesters Driven by Color Noise and Band-Limited Noise. Applied Sciences, 2021, 11(19): 9227.
(IF= 2.838,中科院四区)
19.Zhang Y, Wang W, Xie J, Lei Y, Cao J, Xu Y, Bader S, Bowen C, Oelmann B. Enhanced variable reluctance energy harvesting for self-powered monitoring. Applied Energy, 2022, 321119402.
(IF= 11.446,中科院一区)
20.Zhang Y, Cao J, Wang W, et al. Enhanced modeling of nonlinear restoring force in multi-stable energy harvesters. Journal of Sound and Vibration, 2021, 494: 115890.
(IF= 4.761,中科院二区)
21.王伟, 曹军义*, 林京, 周生喜, 蔡云龙. 一种非线性双稳态人体运动能量俘获技术. 西安交通大学学报, 2015, 49(8); 58-63. (EI)
22.张颖, 王伟, 曹军义. 多稳态俘能系统的准确磁力建模方法. 力学学报, 2021, 53(11): 2984-2995.
23.Wang G.*, Liao W.H., Zhao Z., Tan J., Cui S., Wu H., Wang W.. Nonlinear magnetic force and dynamic characteristics of a tri-stable piezoelectric energy harvester. Nonlinear Dynamics, 2019, 97(1).
(IF=5.741,中科院二区)
24.余建,曹军义*,王伟,等. 人体步态复杂度的递归图和递归定量分析研究. 西安交通大学学报, 2017, 51(10); 47-52. (EI)
25.Cao J.*, Wang W., Zhou S., Inman D. J., Lin J. Nonlinear time-varying potential bistable energy harvesting from human motion. Applied Physics Letters, 2015, 107(14): 143904.
(IF=3.971,中科院二区,自然指数收录期刊)
26.Cao J.*, Zhou S., Wang W., Lin J. Influence of potential well depth on nonlinear tristable energy harvesting. Applied Physics Letters, 2015, 106(17): 173903.
(IF=3.971,中科院二区,自然指数收录期刊)
27.Zhou S., Cao J.*, Inman D. J., Liu S., Wang W. Impact-induced high-energy orbits of nonlinear energy harvesters. Applied Physics Letters, 2015, 106(9): 093901.
(IF=3.971,中科院二区,自然指数收录期刊)
28.Zhou S., Cao J.*, Wang W., et al. Modeling and experimental verification of doubly nonlinear magnet-coupled piezoelectric energy harvesting from ambient vibration. Smart Materials and Structures, 2015, 24(5): 055008.
(IF: 4.131,中科院三区)
7. 发明专利
(1)曹军义,王伟,张楠,练训豪,张云飞,祝博. 一种磁弹簧式电磁振动能量俘获装置. 国家发明专利,专利号:CN201610561461.5.分类号:H02K35/02(2006.01)I.授权日期:2018.07.03
(2)王伟,胡志鑫,卫洪涛,卫荣汉 . 一种磁旋摆式多稳态电磁振动能量俘获装置. 国家发明专利,申请公布号:CN114400859A.分类号:H02K35/02(2006.01)I.申请公布日:2022.04.26.
(3)王伟,胡志鑫,卫洪涛,卫荣汉. 一种磁旋摆碰撞式的非线性电磁振动能量俘获装置. 国家发明专利,申请公布号:CN114400860A.分类号:H02K35/02(2006.01)I.申请公布日:2022.04.26.
(4)王伟,胡志鑫,卫洪涛,卫荣汉. 一种磁旋摆碰撞式电磁振动能量俘获装置. 国家发明专利,申请公布号:CN114400858A.分类号:H02K35/02(2006.01)I.申请公布日:2022.04.26.
(5)王伟,胡志鑫,卫洪涛,卫荣汉. 一种滚动磁铁式三稳态电磁能量收集装置. 国家发明专利,申请号:202210453353.1.申请日:2022.04.27.
(6)王伟,胡志鑫,卫洪涛,卫荣汉. 一种固支梁-悬臂梁耦合碰撞压电能量采集装置. 国家发明专利,申请号:202210453396.X.申请日:2022.04.27.