姓 名 | 王鸣 | 
|
出生年月 | 1982.01 | 职 称 | 副教授/硕导 |
学 历 | 研究生 | 学 位 | 博士 |
籍 贯 | 河北滦县 | 党 派 | 中共党员 |
电 话 |
|
微 信 |
|
邮 箱 | mwang_neu@126.com |
课题组网页:http://www.mwanglntuteam.cn/
主要研究方向和主要学术贡献
1.金属功能材料设计及表面改性
2.新能源材料开发与应用
3.纳米材料多尺度计算及机器学习应用
学习工作访学经历
2001.9-2005.8 东北大学 材料科学与工程专业 本科
2005.9-2011.8 东北大学 材料学专业 博士 (中科院金属所联合培养直接读博)
2011.9-2013.9 德国伊尔梅瑙工业大学 电子材料专业 博士后
2013.12-至今 辽宁工程技术大学材料科学与工程学院工作
2016.3-2017.3 澳大利亚昆士兰科技大学 材料物理与化学专业 国家公派访问学者
社会兼职情况
全国材料新技术发展研究会理事、Journal of Safety and Sustainability青年编委,中国创造学会会员、中国职业安全健康协会会员,入选山东省科技专家库和河北省科技专家库
《Chemical Engineering Journal》,《Surface Coatings and Technology》,《Materials Science and Engineering A》,《Vavuum》等中科院一、二区杂志特邀审稿人
主要学术论文发表情况
1.M. Wang*, P.F. Fang, Y. Chen, et al. Synthesis of highly stable LTO/rGO/SnO2 nanocomposite via in situ electrostatic self-Assembly for high-performance lithium-ion batteries. Advanced Functional Materials, 2023, 2213902: 1-11. (SCI中科院一区top, IF=19.9)
2.Chunlei Zhang1, Ming Wang1, Wenbo Li, et al. Shadow-Thermoelectric System for Enhancing Solar Energy Harvesting and Touchless Human-Machine Interface. Advanced Functional Materials, 2025, 2504693: 1-10. (SCI中科院一区,IF=19,0)
3.Jing Wang, Yonghao Zeng, Ming Wang*. Thermoeconomic and Environmental Evaluation of a SOFC-driven Multigeneration Framework Integrated with Desalination and Electrolysis: Performance Assessment and Multi-objective Optimization. Energy, 2025, 335: 137917. (SCI中科院一区,IF=9.4)
4.M. Wang*, Y. Chen, C.L. Zhang, et al. Length-scale effect on the hardness of metallic/ceramic multilayered composites: a machine learning prediction. Scripta Materialia, 2024, 242:115921. (SCI中科院一区top, IF=6.0)
5.M. Wang*, W.N. Zhang, L. Du, et al. Evaluation of the interface stability of Al/AlN multilayered composites under thermal stress. Surface and Coatings Technology, 2021, 414: 127117. (SCI中科院一区top, IF= 5.4)
6.M. Wang*, D. Wang, P. Schaaf. Layer thickness effect on fracture behavior of Al/Si3N4 multilayer on Si substrate under three-point bending. Applied Surface Science. 2018, 445: 563-567. (SCI中科院一区top,IF= 6.7)
7.M. Wang*, D. Wang, R. Grieseler, et al. Size effect on mechanical behavior of Al/Si3N4 multilayers under nanoindentation. Materials Science and Engineering A. 2015, 644: 275-283. (SCI中科院一区top,IF= 6.4)
8.M. Wang*, D. Wang, M. Hopfeld, et al. Nanoindentation of nano-Al/Si3N4 multilayers with Vickers and Brinell indenters. Journal of the European Ceramic Society.2013, 33: 2355-2358. (SCI中科院一区top,IF=5.7)
9.M. Wang*, B. Zhang, G.P. Zhang, et al. Evaluation of thermal fatigue damage of 200-nm-thick Au interconnect lines. Scripta Materialia, 2009, 60: 803–806. (SCI一区top, IF= 6.0)
10.M. Wang*, B. Zhang, G.P. Zhang, et al. Effects of Interface and Grain Boundary on the Electrical Resistivity of Cu/Ta Multilayers. Journal of Materials Science & Technology, 2009, 25 (5):699-702. (SCI中科院一区top,IF=10.9)
11.M. Wang*, L. Du, Y. Xu, et al. Surface Microstructure Evolution Mechanism of WC-Co Hard Alloy Treated by High Current Pulsed Electron Beam. Vacuum, 2022, 202: 111139. (SCI中科院二区,IF= 4.0)
12.M. Wang*, B. Zhang, G.P. Zhang, et al. Scaling of reliability of gold interconnect lines subjected to alternating current. Applied Physics Letters, 2011, 99: 011910. (SCI中科院二区top, IF= 4.0)
13.W. Li, W. Bao, Z. Huang, Y. Li, Y. Guo, M. Wang*. Enhanced Water Resistance of TiO2-GO-SMS-Modified Soil Composite for Use as a Repair Material in Earthen Sites. Materials, 2024, 17: 4610. (SCI中科院三区,IF= 3.2)
14.M. Wang*, C.X. Yang, X.Y. Leng, et al. The interface effect on the lithiation of silicon/graphene composites: The first principles study. International Journal of Quantum Chemistry. 2024; 124: e27343. (SCI中科院三区, IF= 2.2)
15.M. Wang*, Y. He, W.Hong, et al. Three-dimensional network microstructure design of the Li4Ti5O12/rGO nanocomposite as an anode material for high-performance lithium-ion batteries. Journal of Physical Chemistry C, 2023, 127(21): 10025-10037. (SCI中科院三区,IF=3.7)
16.M. Wang*, G.M. Xu, H.L. Bao, et al. Design of Ni(OH)2/M-MMT nanocomposite with higher charge transport as a high capacity supercapacitor. Frontiers in Chemistry, 2022, 8: 561. (SCI中科院三区,IF=5.5)
17.M. Wang*, Y. Chen, C.X. Yang, et al. High Lithium Storage Performance of Co Ion-Doped Li4Ti5O12 Induced by Fast Charge Transport. Frontiers in Chemistry, 2022,10: 919552. (SCI中科院三区,IF=5.5)
18.W. Li, Y. He, M. Wang*. Novel TiO2/GO/M-MMT nano-heterostructured composites exhibiting high photocatalytic activity. Frontiers in Chemistry, 2023, 6: 1113186. (SCI中科院三区,IF=5.5)
19.M. Wang*, B. Zhang, C.S. Liu, G.P. Zhang. Study on thermal fatigue failure of thin gold film with alternating current loading. Acta Metallurgica Sinica, 2011, 47: 601-604. (SCI中科院三区,IF=2.3)
20.Li, W., Bao, W., Huang, Z., Li, Y., Guo, Y., & Wang, M. (2024). Enhanced Water Resistance of TiO2–GO–SMS-Modified Soil Composite for Use as a Repair Material in Earthen Sites. Materials, 17(18), 4610.(SCI中科院三区,IF=3.2)
21.W. Hong, Y.Q. Zhang, M. Wang*. Study on the Influence of Tricalcium Phosphate Content on Water Absorption of Tangshan Bone China Geographical Indication Product. Integrated Ferroelectrics, 2023, 236: 14-24. (SCI中科院四区,IF=0.7)
22.W. Hong, W.J. Li, M. Wang*. Study on the self-assembly performance of aperylene derivative, Ferroelectrics, 2023, 609: 97-102. (SCI中科院四区,IF=0.8)
23.W. Hong, H.Y. Wu, M. Wang*. Preparation and characterization of antibacterial and antiviral nano functional agentHXG-36-8, Ferroelectrics, 2023, 609: 103-111. (SCI中科院四区,IF=0.8)
24.W.Q. Hu, J. Song, M. Wang*. Nanoarchitectonics of Sn3O4/g-C3N4 heterostructure materials for better photocatalytic and electrochemical performance. Nano, 2022, 17(06):2250044. (SCI中科院四区,IF=1.2)
25.M. Wang*, D. Wang, D. Schmidt, et al. Size effect on the tensile strength of Al/Si multilayers on Kapton substrate. Journal of Materials Science-Materials in Electronics, 2015, 26: 8224-8228. (SCI中科院四区,IF=2.8)
26.J.Y. Song, Y.H. Zeng, J.W. Wang, M. Wang*. Strength Prediction of IF Steel Based on Machine Learning Approach. Springer Proceedings in Physics, 2025, 324: 823-830. (EI)
27.K. Sun, J.W. Wang, X.Y. Leng, D.Y. Li, M. Wang*.The Laser Power Effect on the Microstructure and Properties of TC21 Titanium Alloy Formed by Laser Selective Melting. Springer Proceedings in Physics, 2024, 307:487-493. (EI)
28.X.Y. Leng, D.Y. Li, J.W. Wang, Y. Chen, M. Wang*. Lithium-Ion Storage Performance of Sn/C Composites as an Anode of Lithium-Ion Battery. Springer Proceedings in Physics, 2024, 307: 313-320. (EI)
29.S.Y. Zhang, D.Y. Li, X.Y. Leng. C. Cai, M. Wang*. 2D Phosphorene Nanosheets Prepared by Simple One-Step Solvothermal Method. Springer Proceedings in Physics, 2024, 307: 321-328. (EI)
30.M. Wang*, Y.H. Zeng, Y. Chen, et al. Crystal structure effect on metallic mechanical properties of under tension stress: molecular dynamics study. Engineering for Rural Development, 2023, 197: 980-984. (EI)
31.M. Wang*, C.X. Yang, P.F. Fang, et al. Size effect on the lithium storage properties of Si/rGO composites. Environmental Science and Engineering, 2023, 251-257. (EI)
32.M. Wang*, P.F. Fang, L. Du, et al. Preparation and Electrochemical Properties of Li4Ti5O12@PorousC Composite as Anode of Lithium Ion Battery. Journal of the Chinese Ceramic Society, 2022, 50: 364-371. (in Chinese EI)
33.M. Wang*, H.L. Bao, L. Du, et al. Preparation and electrochemical performance of Li4Ti5O12/Co3O4 composite as an anode of Lithium-ion battery. Solid State Phenomena, 2022, 330: 133-138. (EI)
34.M.Wang*, L. Du, P.F. Fang, et al. Preparation and electrochemical performance of Li4Ti5O12/SnO2 composite as an anode of lithium-ion batteries. Solid State Phenomena, 2022, 330: 139-144. (EI)
35.X. Ren, P.T. Qi, M.Wang*. Co(OH)2/TiO2 nanotube composite for high-rate performance supercapacitor. Materials Science Forum, 2021, 1033: 116-120. (EI)
36.M.Wang*, X. Zhang, L.F. Zhou, et al. Study on mechanical properties and wear resistance of aluminum alloy composites reinforced by basalt fiber. Journal of Physics D, 2020, 1681: 012002. (EI)
37.M. Wang*, X. Zhang, Y. Zhao, et al. Effect of Rolling Elongation on the Mechanical Properties of IF Steel Foil. Materials Reports, 2020, 34: 01395. (in Chinese EI)
38.王鸣*,黄俊涛,任亚航,等. 锂离子电池负极材料Li4Ti5O12合成与改性的研究进展. 功能材料,2020, 3: 03047. (CSCD,邀稿)
39.M. Wang*, J.T. Huang, L.L. Cheng, et al. Preparation and Electrochemical Performance of Li4Ti5O12@C Composites for Negative Electrode of Lithium Ion Battery. Materials Reports, 2020, 34: 01019. (in Chinese EI)
40.M. Wang*, X. Zhang, L.L. Cheng, et al. Bending Fatigue Damage Behavior of Annealed Polycrystalline Cu Foil. Materials Science Forum. 2019, 971: 53-58. (EI)
41.M. Wang*, X.M. Zhang, Y.B. Wang, et al. Preparation and Electrochemical Performance of Mg2+ Doped Li4Ti5O12 Anode Materials for Lithium-Ion Batteries. Materials Science Forum. 2019, 205: 238-243. (EI)
42.M. Wang*,H.X. Huang, P.T. Qi, et al. Reduced Graphene Oxide (rGO)/Silicon Network Structured Composites: Preparation and Electrochemical Performance as Anode Materials for Li-ion Batteries. Materials Reports. 2019,33: 927. (in Chinese EI)
43.M. Wang*, J. Wang, J. Zhao, et al. Effect of annealing temperature on mechanical properties of 08Al cold-rolled sheet. Transactions of Materials and Heat Treatment, 2015, 36: 107-110. (in Chinese EI)
44.M. Wang*, B. Zhang, C.S. Liu, et al. Failure behavior of Au interconnects under a high density of alternating current. Journal of Northeastern University, 2010,31: 827-829. (in Chinese EI)
45.Ming Wang, Chunlei Zhang, Wenran Zhang, et al. Recent progress of sensor devices and materials: Especially in the intelligent applications. Review of Materials Research, 2025, 1: 100062. (邀稿)
46.王鸣, 李冬月, 冷欣阳, 等. 基于静电纺丝技术的锂离子电池硅碳复合负极材料的应用进展. 高分子通报, 37(08): 1024-1036. (CSCD)
授权发明专利情况
1、脉冲电压诱发薄膜材料机械疲劳测试方法及装置。王鸣,张旭,安康,李思瑶。国家发明专利,专利号:ZL 2018 1 1407261.X,授权日期:20210917。
2、VO2/Co(OH)2纳米复合材料及其制法和超级电容器。王鸣,齐鹏涛,梁萌,程丽丽,任亚航,周律法。国家发明专利,专利号:ZL 2019 1 1065639.7,授权日期:20210917。
3、Co(OH)2/TiO2纳米管阵列复合材料及其制法锂离子电池。王鸣,查志飞,李思瑶,安康,王迎波。国家发明专利,专利号:ZL 2018 1 1256642.2,授权日期:20200908。
4、四氧化三钴和钛酸锂复合材料及其制备方法、锂离子电池。王鸣,张雪明,王学雷,徐洋,程丽丽,王溪艺,周律法。国家发明专利,专利号:ZL 2019 1 0243893.5,授权日期:20200908。
5、锂离子电池多孔碳包覆钛酸锂负极材料的制备方法、制备的负极材料及以其为负极的电池。王鸣,张雪明,李新,王学雷,齐鹏涛,查志飞。国家发明专利,专利号ZL 2018 1 1154398.9,授权日期:20220111。
承担课题
1.固态电解质用离子掺杂Li4Ti5O12/PEO复合材料储能机理研究,2024年度辽宁省自然科学基金联合基金计划(项目编号:20240321)(项目主持人)
2.冷轧态金属极薄带微观结构及力学性能 尺寸效应研究,东北大学数字钢铁全国重点实验室开放课题(项目编号:2025-Z0068)(项目主持人)
3.钛铁矿原位构建多组元掺杂Li4Ti5O12的晶格调控及储锂机制,2025年度辽宁省教育厅基本科研项目(项目编号:2025-Z0113)(项目主持人)
4. “锂离子电池负极钛酸锂基复合材料纳米原位合成及储能机理研究”, 辽宁省教育厅科学研究经费项目(面上项目)资助(基金号:LJKZ0363)(项目主持人)
5. “亚稳态纳米层状金属材料(Al/Ni;Ti)的界面演化行为及其变形机制”,中央引导地方科技发展资金(自由探索类基础研究)资助(基金号:2022JH6/100100047)(项目主持人)
6.“纳米层状材料在交变电场作用下的损伤机制及其可靠性 ”,辽宁省自然科学基金项目材料联合基金资助(基金号:20180510034)(项目主持人)
7.“微米尺度下多晶铜箔疲劳行为及其尺寸效应 ”辽宁省教育厅基金一般项目资助(基金号: L2015219)(项目主持人)
8.“电/力/热多场耦合作用下金属纳米双层薄膜热疲劳行为的尺寸与界面效应”,辽宁省自然科学基金项目资助(基金号: 2015020247)(项目主持人)
9.“13F输油泵摆线转子的疲劳损伤及失效分析研究”,江苏省“双创”人才项目资助(项目主持人)
10.“锂离子电池负极材料的制备及可靠性研究”,辽宁工程技术大学博士启动基金资助(基金号:14-1110)(项目主持人)
11.“金属/陶瓷纳米层状材料界面失稳与疲劳损伤行为研究”,国家公派留学基金项目资助(基金号:20160053)(项目主持人)
12.“矿物结构新能源材料的开发与利用”,辽宁工程技术大学青年教师提升计划“拔尖人才”项目资助(项目主持人)
获奖情况
1.2025年被评为第四届辽宁工程技术大学“最美教师”
2.2022年度辽宁省自然科学学术成果奖三等奖
3.2022年中国创造协会创造发明奖三等奖
4.2020年度被评为辽宁工程技术大学“青年五四奖章”提名奖
5.2018年度辽宁工程技术大学青年提升计划“拔尖人才”称号
6.2015年度被评为辽宁工程技术大学“大学生良师益友”
7.2011年获得德国“Carl-Zeiss”博士后奖学金
教学方面相关情况
1、主讲本科生课程:“无机材料物理性能”、”金属材料学”(辽宁省一流课程)、“Engineering Mathmatics”(外国留学生)、“Functional Materials”(俄罗斯留学生)
2、主讲研究生课程:“纳米材料与纳米结构”、“晶体微结构与缺陷”
3、获批2023年辽宁工程技术大学本科课程思政示范课
4、主持2023年辽宁工程技术大学统战和教师思想政治工作理论研究课题
5、主持2021年主持辽宁省普通高等学校校际合作项目
6、主持2021年辽宁工程技术大学本科教学改革研究项目
7、主持2021年辽宁工程技术大学研究生教育教学改革研究项目
指导研究生情况:
1、多人获得省级优秀毕业生、校级三好研究生
2、多人获得国家奖学金及航空航天奖学金
3、多次获得一等、二等、三等学业奖学金
4、推荐优秀毕业研究生全额奖学金到澳大利亚昆士兰科技大学读博士学位
指导学生竞赛情况:
1.2023年指导研究生获得第六届中国高校智能机器人创意大赛二等奖
2.2023年指导本科生获得“第六届辽宁省普通高等学校本科大学生材料成型工艺创意竞赛”省级二等奖
3.2023年辽宁省第三届大学生材料微观之美创意大赛二等奖
4.2023年辽宁省第二届大学生铸造工艺设计大赛三等奖
5.2022年指导本科生获得辽宁省普通高等学校本科大学生无线电测定向大赛一等奖
6.2022年指导本科生获得辽宁省普通高等学校“奥镁绿意杯”节能环保大学生科技创新大赛三等奖
7.2022年指导本科生获得第三届水下智能装备创新设计大赛二等奖
8.2022年指导研究生获批省级创新项目2项
9.2022年指导研究生获得第八届“互联网+”大学生创新创业大赛辽宁省银奖1项,铜奖2项
10.2022年指导研究生获得“雄鹰杯”校三等奖1项
11.指导本科大学生创新创业项目10余项,其中省级2项
12.2021年指导本科生获得“雄鹰杯”辽宁省铜奖1项
13.指导本科生获得2019年第八届全国大学生金相技能大赛三等奖两项
14.指导本科生及研究生创业入驻辽宁工程技术大学创业孵化基地
15.指导本科生获得2018年辽宁省普通高等学校本科大学生计算机设计竞赛二等奖
16.指导本科生获得2018年第11届中国大学生计算机设计大赛三等奖
