李晓伟,男,1982年生,江苏徐州人,中共党员,中国矿业大学材料与物理学院教授,江苏特聘教授,博士生导师。
长期从事表面改性碳基功能涂层材料的设计、制备和摩擦、磨蚀等行为的实验和理论计算研究,并探索其在机械、汽车、海洋、纺织、生物医学等关键部件的工程化应用。至今已在npj comput. mater.、carbon、acs appl. mater. interfaces、j. phys. chem. c、appl. surf. sci.等国内外期刊上发表论文86篇(jcr一区41篇、本领域top期刊32篇),其中第一/通讯作者50篇(sci 42篇,ei 3篇);申请专利15项,其中授权专利12项;作为编委主要成员之一参与撰写《材料科学与制造技术》专著第五章“类金刚石碳膜材料及其应用”;参与撰写国家标准“碳基薄膜 分类及命名”1项;组织和参加材料与物理学院表面工程系列论坛(第二期)、aepse、e-mrs、icmctf-svc、accms等国内外学术研讨会29次;作为负责人承担韩国国家研究基金会krf项目、国家自然科学基金面上和青年基金(3项)、科技部国际合作、宁波市国际合作项目等13项;作为项目骨干参与国家重点研发计划、科技部973子课题、国家自然科学基金、浙江省重大科技招标以及企业委托等项目13项,并荣获宁波市科学技术进步一等奖1项、中国产学研合作创新成果优秀奖1项、第二届宁波市高价值专利发明金奖1项。入选江苏省“特聘教授”、校高端人才“攀登学者”、韩国krf fellow、中科院春蕾人才、南太湖精英计划领军创业团队等人才计划;担任教育部学位中心评审专家,国家自然科学基金委和科技部项目函评和会评专家,国家公派出国留学项目评审专家,江苏省、浙江省、广东省、安徽省、上海市基金评审及咨询专家库成员等;sci期刊“materials”(if=3.623)主题编辑,“机械工程导报”编委;中国机械工程学会高级会员,中国机械工程学会摩擦学分会委员,中国生物材料学会会员,江苏省材料学会青年工作委员会委员,江苏省摩擦学分会会员,icmsce 2021技术委员会成员;carbon、langmuir、tribol. int.、appl. surf. sci.等表面工程领域多个期刊审稿专家。
研究方向
碳基功能涂层材料的设计、制备及机械、海洋、空天、生物等应用探索
碳基涂层的机械摩擦、磨蚀等物化特性的实验和理论计算研究
材料表面强化与等离子体改性
生物与仿生材料
教育工作经历
2002.09—2006.06:江苏科技大学,材料科学与工程学院,金属材料工程专业,工学学士。
2006.09—2009.04:江苏科技大学,材料科学与工程学院,材料学专业(腐蚀与防护方向),工学硕士学位。
2009.09—2013.01:中科院宁波材料技术与工程研究所,表面工程事业部,材料物理与化学专业,工学博士学位。
2011.01—2013.01:韩国科学技术研究院,计算科学研究中心,博士课题联合培养(国家公派留学)。
2013.02—2015.01:中国科学院宁波材料技术与工程研究所,表面工程事业部,助理研究员。
2013.02—2015.07:中国科学院宁波材料技术与工程研究所,表面工程事业部,博士后,合作导师:陈建敏研究员、汪爱英研究员。
2015.02—2018.02:中国科学院宁波材料技术与工程研究所,表面工程事业部,副研究员,硕士生导师。
2016.06—2019.05:宁波大学,材料科学与化学工程学院,兼职硕士生导师。
2017.08—2017.08:韩国科学技术研究院,计算科学研究中心,访问学者。
2017.08—2020.10:韩国科学技术研究院,计算科学研究中心,krf研究员(项目博士后)。
2018.04—至今:中国科学院宁波材料技术与工程研究所,表面工程事业部,客聘副研究员。
2020.11—至今:中国矿业大学,材料与物理学院,教授,博士生导师。
主持承担的科研项目
中国矿业大学材料科学与工程学科引导课题,表面强化类金刚石涂层的结构调控及磨蚀行为,2022/9-2025/8,在研,主持。
国家自然科学基金面上项目,类金刚石薄膜的表面石墨化/钝化结构调控及多环境摩擦润滑机理,2022/1-2025/12,在研,主持。
江苏省特聘教授,金属表面功能改性碳基薄膜,2021/10-2024/10,在研,主持。
徐州市基础研究计划项目,海工装备用强韧一体化碳基涂层与磨蚀机理,2021/9-2023/8,在研,主持。
国家自然科学基金面上项目,ti/al共掺杂类金刚石薄膜的表/界面结构设计与固液复合润滑机理,2018/1-2021/12,已结题,主持。
韩国国家研究基金会krf 项目,study on solid-liquid composite lubrication mechanism of diamond-like carbon coatings by multiscale simulation approach for automobile application,2017/8-2020/10,已结题,主持。
中科院宁波材料所“一三五”重点部署项目子课题,海洋防护抗磨蚀涂层材料高通量设计制备关键技术,2017/3-2018/12,已结题,主持。
科技部国际合作司,中-韩青年科学家交流计划,2016/8-2017/8,已结题,主持。
国家自然科学基金青年项目,多元金属掺杂类金刚石薄膜设计制备与应力降低协同机制,2015/1-2017/12,已结题,主持。
中国博士后科学基金,高硬耐磨碳基润滑涂层的可控制备及摩擦润滑机制研究,2014/2-2015/7,已结题,主持。
宁波市国际合作项目,纺织关键部件用高性能碳基涂层与关键技术,2014/1-2016/12,已结题,主持。
宁波市自然科学基金,ti/al共掺杂类金刚石薄膜的可控制备及其性能研究,2014/1-2015/12,已结题,主持。
代表性论著( * 通讯作者)
xiaowei li*, naizhou du, cunao feng, kai chen, xubing wei, dekun zhang, kwang-ryeol lee*. theoretical superlubricity and its friction stability of amorphous carbon film induced by simple surface graphitization. appl. surf. sci., 2023, 615: 156318-1-11.
naizhou du, xubing wei, xiaowei li*, zan chen, shiqi lu, jiaqing ding, cunao feng, kai chen, jianghao qiao, dekun zhang, kwang-ryeol lee. unraveling the friction response from selective hydrogenation of textured amorphous carbon surface. appl. surf. sci., 2023, 614: 156246-1-9.
xiaowei li*, xiaowei xu, jianwei qi, dekun zhang, aiying wang*, kwang-ryeol lee*. insights into superlow friction and instability of hydrogenated amorphous carbon/fluid nanocomposite interface. acs appl. mater. interfaces, 2021, 13(29):35173-35186.
xiaowei li*, dekun zhang, kwang-ryeol lee*. exploring the different roles of graphene and its derivatives as nano-additives at amorphous carbon surface through reactive molecular dynamics approach. comput. mater. sci., 2021, 195:110499-1-110499-10.
xiaowei xu, peng guo, xiaowei li*, kwang-ryeol lee, ping cui, aiying wang*. exploring the tribological behavior of ti/al-dlc/pao/graphene oxide nanocomposite system. ceram. int.,2021, 47(8):11052-11062.
xiaowei li*, dekun zhang*, xiaowei xu, kwang-ryeol lee*. tailoring the nanostructure of graphene as an oil-based additive: toward synergistic lubrication with an amorphous carbon film. acs appl. mater. interfaces, 2020, 12:43320-43330.
xiaowei xu, peng guo, xiao zuo, lili sun, xiaowei li*, kwang-ryeol lee, aiying wang*. understanding the effect of al/ti ratio on the tribocorrosion performance of al/ti co-doped diamond-like carbon films for marine applications. surf. coat. technol., 2020, 402:126347-1-9.
xiaowei li*, aiying wang*, kwang-ryeol lee*. fundamental understanding on low-friction mechanisms at amorphous carbon interface from reactive molecular dynamics simulation. carbon, 2020, 170:621-629.
xiaowei li*, hanchao li, kwang-ryeol lee, aiying wang*. cooling rate dependence of ni-catalyzed transformation of amorphous carbon into graphene in rapid thermal processing: an experimental and reactive molecular dynamics study. appl. surf. sci., 2020, 529:147042-1-8.
xiaowei xu, peng guo, leslie ching ow tiong, xiao zuo, xiaowei li*, kwang-ryeol lee, ping cui, peiling ke, aiying wang*. role of dimple textured surface on tribological properties of ti/al-codoped diamond-like carbon films. thin solid films, 2020, 708:138136-1-11.
xiaowei xu#, yong zhou#, linlin liu, peng guo, xiaowei li*, kwang-ryeol lee, ping cui, aiying wang*. corrosion behavior of diamond-like carbon film induced by al/ti co-doping. appl. surf. sci., 2020, 509:144877-1-10.
xiaowei li*, zhenyu wang, hanchao li, aiying wang*, kwang-ryeol lee*. fast synthesis of graphene with a desired structure via ni-catalyzed transformation of amorphous carbon during rapid thermal processing: insights from molecular dynamics and experimental study. j. phys. chem. c, 2019, 123:27834-27842. (front cover)
xiaowei li*, hiroshi mizuseki, sung jin pai, kwang-ryeol lee*. reactive molecular dynamics simulation of the amorphous carbon growth: effect of the carbon triple bonds. comput. mater. sci., 2019, 169:109143-1-11.
xiaowei li*, xiaowei xu, yong zhou, kwang-ryeol lee*, aiying wang*. insights into friction dependence of carbon nanoparticles as oil-based lubricant additive at amorphous carbon interface. carbon, 2019, 150:465-474.
xiaowei li*, aiying wang, kwang-ryeol lee*. atomistic understanding on friction behavior of amorphous carbon films induced by surface hydrogenated modification. tribol. int., 2019, 136:446-454.
xiaowei li*, yong zhou, xiaowei xu, aiying wang, kwang-ryeol lee*. role of the carbon source in the transformation of amorphous carbon to graphene during rapid thermal processing. phys. chem. chem. phys., 2019, 21:9384-9390.
xiaowei li*, aiying wang, kwang-ryeol lee*. role of unsaturated hydrocarbon lubricant on the friction behavior of amorphous carbon films from reactive molecular dynamics study. comput. mater. sci., 2019, 161:1-9.
yong zhou, peng guo, lili sun, linlin liu, xiaowei xu, wenxian li, xiaowei li*, kwang-ryeol lee, aiying wang*. microstructure and property evolution of diamond-like carbon films co-doped by al and ti with different ratios. surf. coat. technol., 2019, 361:83-90.
xiaowei li*, aiying wang, kwang-ryeol lee*. tribo-induced structural transformation and lubricant dissociation at amorphous carbon/alpha olefin interface. adv. theory simul., 2019, 2:1800157-1-10. (back cover)
xiaowei li*, aiying wang, kwang-ryeol lee*. insights on low-friction mechanism of amorphous carbon films from reactive molecular dynamics study. tribol. int., 2019, 131:567-578.
xiaowei li*, aiying wang, kwang-ryeol lee*. transformation of amorphous carbon to graphene on low-index ni surfaces during rapid thermal processing: a reactive molecular dynamics study. phys. chem. chem. phys., 2019, 21:2271-2275. (back cover)
xiaowei li*, aiying wang, kwang-ryeol lee*. mechanism of contact pressure-induced friction at the amorphous carbon/alpha olefin interface. npj comput. mater., 2018, 4:53-1-9.
xiaowei li, aiying wang, kwang-ryeol lee*. comparison of empirical potentials for calculating structural properties of amorphous carbon films by molecular dynamics simulation. comput. mater. sci., 2018, 151:246-254.
cuicui kong, peng guo, lili sun, yong zhou, yunxiao liang, xiaowei li*, peiling ke, kwang-ryeol lee, aiying wang*. tribological mechanism of diamond-like carbon films induced by ti/al co-doping. surf. coat. technol., 2018, 342:167-177.
xiaowei li*, lei li, dong zhang, aiying wang*. ab initio study of interfacial structure transformation of amorphous carbon catalyzed by ti, cr, and w transition layers. acs appl. mater. interfaces, 2017, 9:41115-41119.
peng guo#, xiaowei li#, lili sun, rende chen, peiling ke, aiying wang*. stress reduction mechanism of diamond-like carbon films incorporated with different cu contents. thin solid films, 2017, 640:45-51.
ting guo#, cuicui kong#, xiaowei li*, peng guo, zhenyu wang, aiying wang*. microstructure and mechanical properties of ti/al co-doped dlc films: dependence on sputtering current, source gas, and substrate bias. appl. surf. sci., 2017, 410:51-59.
xiaowei li*, peng guo, lili sun, xiao zuo, dong zhang, peiling ke, aiying wang*. ti/al co-doping induced residual stress reduction and bond structure evolution of amorphous carbon films: an experimental and ab initio study. carbon, 2017, 111:467-475.
lili sun, peng guo, peiling ke, xiaowei li*, aiying wang*. synergistic effect of cu/cr co-doping on the wettability and mechanical properties of diamond-like carbon films. diam. relat. mater., 2016, 68:1-9.
xiaowei li, dong zhang, kwang-ryeol lee*, aiying wang*. effect of metal doping on structural characteristics of amorphous carbon system: a first-principles study. thin solid films, 2016, 607:67-72.
xiaowei li*, lili sun, peng guo, peiling ke, aiying wang*. structure and residual stress evolution of ti/al, cr/al or w/al co-doped amorphous carbon nanocomposite films: insights from ab initio calculations. mater. design, 2016, 89:1123-1129.
xiaowei li*, peng guo, lili sun, aiying wang*, peiling ke. ab initio investigation on cu/cr codoped amorphous carbon nanocomposite films with giant residual stress reduction. acs appl. mater. interfaces,2015, 7:27878-27884.
xiaowei li, peiling ke, aiying wang*. probing the stress reduction mechanism of diamond-like carbon films by incorporating ti, cr, or w carbide-forming metals: ab initio molecular dynamics simulation. j. phys. chem. c, 2015,119:6086-6093.
xiaowei li, peiling ke, aiying wang*. stress reduction of cu-doped diamond-like carbon films from ab initio calculations. aip adv., 2015, 5:017111-1-9.
xiaowei li, peiling ke, aiying wang*. ab initio molecular dynamics simulation on stress reduction mechanism of ti-doped diamond-like carbon films. thin solid films, 2015, 584:204-207.
xiaowei li,shipeng xu, peiling ke, aiying wang*. thickness dependence of properties and structure of ultrathin tetrahedral amorphous carbon films: a molecular dynamics simulation. surf. coat. technol., 2014, 258:938-942.
xiaowei li,peiling ke, kwang-ryeol lee, aiying wang*. molecular dynamics simulation for the influence of incident angles of energetic carbon atoms on the structure and properties of diamond-like carbon films. thin solid films, 2014, 552:136-140.
xiaowei li, peiling ke, he zheng, aiying wang*. structural properties and growth evolution of diamond-like carbon films with different incident energies: a molecular dynamics study. appl. surf. sci., 2013, 273:670-675.
xiaowei li, kwang-ryeol lee*, aiying wang*. chemical bond structure of metal-incorporated carbon system. j. comput. theor. nanos., 2013, 10:1688-1692.
xiaowei li, min-woong joe, aiying wang*, kwang-ryeol lee*. stress reduction of diamond-like carbon by si incorporation: a molecular dynamics study. surf. coat. technol., 2013, 228:s190-s193.
xiaowei li, aiying wang*, kwang-ryeol lee. first principle investigation of interaction between impurity atom (si, ge, sn) and carbon atom in diamond-like carbon system. thin solid films, 2012, 520:6064-6067.
编委主要成员,编写《材料科学与制造技术》-“第5章 类金刚石碳膜材料及其应用”,页码161-215,科学出版社,2014.10.11,isbn:9787030421036。
九游会登录的联系方式:
电话:15867273071
邮箱:xwli@cumt.edu.cn
地址:江苏省徐州市大学路1号中国矿业大学南湖校区材料学院楼b502
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