刘文博
近期热点
资料介绍
个人简历
教育背景及工作经历2008.09~2011.06,四川大学 材料加工专业 博士 (与北京航空航天大学联合培养)2011.06~2014.01,北京航空航天大学 材料物理与化学专业 博士后2015.02~2017.05,香港理工大学 机械工程系 材料学专业 博士后、 香江学者2014.03~2021.09, 四川大学机械工程学院 材料成型与控制工程系 副研究员/副教授、博士生导师2021.09~至 今, 四川大学机械工程学院 材料成型与控制工程系 教授、博士生导师主要从事新型功能化微纳多孔金属基材料的快速成形及其在能源(锂二次电池、超级电容器、燃料电池)、环保(有机物降解、水处理)、催化(电催化、光催化)、传感(生物医学传感器、电化学传感器)等前沿领域的应用基础研究。在Adv. Funct. Mater. (cover), Chem. Eng. J., J. Mater. Chem. A (cover), J. Power Sources, Composites Part B-Eng., ACS Sustainable Chem. Eng., J. Mater. Sci. Technol., Mater. Des., Nanoscale, Corros. Sci.等国内外高水平期刊上发表学术论文100余篇(其中近70篇被SCI 检索,20篇IF>7.0,H-index=21(Thompson Reuters),累计引用1000余次),申报国家发明专利22项,授权18项,实现技术转让/实施许可2项。先后入选四川省海外高层次人才引进计划、国家人社部“香江学者计划”、海安市“海陵英才计划”和四川大学人才引进计划,并被授予四川省特聘专家称号;作为第一或主要完成人,先后荣获中国电子学会自然科学二等奖(省部级)、成都市自然科学奖、香江学者奖和四川省优秀博士学位论文奖;研究成果多次被Mater. Today, Nano Lett.等本学科顶级刊物正面评价和引用,多次在Springer Nature、Elsevier、AIE、ASN等国际知名科技网站进行专题报道,并被国际知名可视化期刊JOVE邀请拍摄成视频出版。先后主持国家“973”计划项目子课题、国家重点研发计划项目子课题、国家自然科学基金、中国博士后科学基金、四川省国际科技合作等二十余项国家和地方的科研项目;同时,作为主研人员,参与完成国家“973”计划项目、国家“863”计划课题,国家国际科技合作重点项目和国家自然科学基金等多项国家级重要科研工作。开设课程本科课程:《材料分析方法》、《材料成型过程控制》、《传感器与检测技术》硕士生课程:《功能材料与器件的开发及应用》、《新能源材料与器件选论》、《材料制备及原理》博士生课程:《功能材料Ⅱ》在研项目:(1) 国家“973”计划项目子课题:高容量、长寿命纳米负极储锂材料的设计、制备与性能研究(2) 国家自然科学基金:高倍率、长寿命Sn基宽间隙阵列型纳米多孔电极的快速成形与表面构型诱导应力缓冲机制(3) 国家自然科学基金:集流体/活性材料一体化Sn基纳米多孔电极的原位制备及其储锂性能研究(4) 四川省国际科技合作计划:宽温域锂离子电池多孔硅/碳复合负极研发(5) 四川省国际科技合作计划:高能量密度锂离子电池多孔锡/铜复合负极研发(6) 国家人社部“香江学者计划”科研项目:先进结构与功能材料的研究授权专利已申报国家发明专利22项,授权18项,实现技术转让/实施许可2项,代表性授权专利如下:· 刘文博,陈雪,张世超,颜家振,李宁.锡氧化物-镍锡化合物锂离子电池负极及其制备方法.专利号:ZL 202010019569.8.· 刘文博,饶雪兰,向鹏,颜家振,李宁.铁锡-铁锡氮化合物一体化锂离子电池负极及其制备方法.专利号:ZL 202011219244.0.· 刘文博,卢勃勃,蔡丽,颜家振,李宁.中空多孔二氧化锡-氧化亚铜-铜或中空多孔二氧化锡-铜一体化锂电池负极及其制备方法.专利号:ZL 202011164545.8.· 刘文博,成朋,卢勃勃,颜家振,李宁.基于中空管状三维纳米多孔结构的锂离子电池铜-铜氧化物一体化负极及制备方法.专利号:ZL 202011148099.1.· 刘文博,董鑫,向鹏,颜家振,李宁.基于铜锡合金的三维铜锡化合物纳米颗粒-微米多孔铜锂离子电池负极及其一步制备法.专利号:ZL 201811345813.9.· 刘文博,成朋,陈雪,颜家振,李宁.三维海胆/多孔复合结构锂离子电池铜/氧化铜/二氧化锡/碳负极及其制备方法.专利号:ZL 201811105582.4.· 刘文博,董鑫,成朋,李宁,颜家振.基于铜锡合金的三维氧化亚铜-纳米多孔铜锂离子电池负极的一步制备法.专利号:ZL 201811345810.5.· 刘文博,陈龙,李宁,颜家振.三维纳米多孔铜/一维氧化亚铜纳米线网络型锂离子电池负极及其一步制备法.专利号:ZL 201610616983.0.· 刘文博,陈龙,李宁.三维纳米多孔铜/二维氧化亚铜纳米片阵列型锂离子电池负极及其一步制备法.专利号:ZL 201610620678.9.· 刘文博,张世超,郑继伟,邢雅兰.一种基于Mg-Cu一步去合金化制备多孔Mg2Cu化合物的方法.专利号:ZL 201110272595.2.研究领域
"能源材料与纳米技术、金属功能材料及其制备技术、先进材料成型技术"近期论文
· W.B. Liu*, B.B. Lu, X.J. Liu, Y. Gan, S.C. Zhang, S.Q. Shi. In-situ synthesis of the peapod-like Cu-SnO2@copper foam as anode with excellent cycle stability and high area specific capacity. Advanced Functional Materials 31 (2021) 2101999. (Cover, IF: 18.808, SCI)· W.B. Liu*, X. Chen, J.Z. Zhang, S.C. Zhang, S.Q. Shi. In-situ synthesis of freestanding porous SnOx-decorated Ni3Sn2 composites with enhanced Li storage properties. Chemical Engineering Journal 412 (2021) 128591. (IF: 13.273, SCI)· W.B. Liu*, P. Xiang, X. Dong, H.B. Yin, H. Yu*, P. Cheng, S.C. Zhang, S.Q. Shi. Two advantages by a single move: core-bishell electrode design for ultrahigh-rate capacity and ultralong-life cyclability of lithium ion batteries. Composites Part B: Engineering 216 (2021) 108883. (IF: 9.078, SCI)· W.B. Liu*, P. Cheng, X.M. Yan, H.M. Gou, S.C. Zhang, S.Q. Shi. Facile one-step solution-phase route to synthesize hollow nanoporous CuxO microcages on 3D copper foam for superior Li storage. ACS Sustainable Chemistry & Engineering 9 (2021) 4363-4370. (IF: 8.198, SCI)· W.B. Liu*, L. Chen, L. Cui, J.Z. Yan, S.C. Zhang, S.Q. Shi. Freestanding 3D nanoporous Cu@1D Cu2O nanowire heterostructure: From facile one-step protocol to robust application in Li storage. Journal of Materials Chemistry A 7 (2019) 15089-15100. (Cover, IF: 12.732, SCI)· W.B. Liu*, X. Chen, P. Xiang, S.C. Zhang, J.Z. Yan, N. Li, S.Q. Shi. Chemically monodispersed tin nanoparticles on monolithic 3D nanoporous copper for lithium ion battery anodes with ultralong cycle life and stable lithium storage. Nanoscale 11 (2019) 4885-4894. (IF: 7.79, SCI)· X. Dong, W.B. Liu*, X. Chen, J.Z. Yan, N. Li, S.Q. Shi, S.C. Zhang, X.S. Yang. Novel three dimensional hierarchical porous Sn-Ni alloys as anode for lithium ion batteries with long cycle life by pulse electrodeposition. Chemical Engineering Journal 350 (2018) 791-798. (IF: 13.273, SCI)· W.B. Liu*, P. Cheng, J.Z. Yan, N. Li, S.Q. Shi, S.C. Zhang. Temperature-induced surface reconstruction and interface structure evolution on ligament of nanoporous copper. Scientific Reports 8 (2018) 447. (IF: 4.379, SCI)· W.B. Liu, N. Li, Z.Y. Zhong, J.Z. Yan, D. Li, Y. Liu, X.C. Zhao, S.Q. Shi. Novel cast-aged MnCuNiFeZnAl alloy with good damping capacity and high usage temperature towards engineering application. Materials & Design 106 (2016) 45-50. (IF: 7.991, SCI)· Z.Y. Zhong, W.B. Liu*, N. Li, J.Z. Yan, J.W. Xie, D. Li, Y. Liu, X.C. Zhao, S.Q. Shi. Mn segregation dependence of damping capacity of as-cast M2052 alloy. Materials Science and Engineering A 660 (2016) 97-101. (IF: 5.234, SCI)· W.B. Liu*, L. Chen, X. Dong, J.Z. Yan, N. Li, S.Q. Shi, S.C. Zhang. A facile one-pot oxidation-assisted dealloying protocol to massively synthesize monolithic core-shell architectured nanoporous copper@cuprous oxide nanonetworks for photodegradation of methyl orange. Scientific Reports 6 (2016) 36084. (IF: 4.379, SCI)· C.L. Xin, W.B. Liu*, N. Li, J.Z. Yan, S.Q. Shi. Metallization of Al2O3 ceramic by magnetron sputtering Ti/Mo bilayer thin films for robust brazing to Kovar alloy. Ceramics International 42 (2016) 9599-9604. (IF: 4.527, SCI)· W.B. Liu*, L. Chen, J.Z. Yan, N. Li, S.Q. Shi, S.C. Zhang. Dealloying solution dependence of fabrication, microstructure and porosity of hierarchical structured nanoporous copper ribbons. Corrosion Science 94 (2015) 114-121. (IF: 7.205, SCI)· W.B. Liu*, L. Chen, J.Z. Yan, N. Li, S.Q. Shi, S.C. Zhang. Nanoporous copper from dual-phase alloy families and its technology application in lithium ion batteries. Corrosion Reviews 33 (5) (2015) 203-231. (特邀综述, SCI)· J.F. Zhao, S.C. Zhang, W.B. Liu*, Z.J. Du, H. Fang. Fe3O4/PPy composite nanospheres as anode for lithium-ion batteries with superior cycling performance. Electrochimica Acta 121 (2014) 428-433. (IF: 6.901, SCI)· S.S. An1, S.C. Zhang1, W.B. Liu1,*, H. Fang, M.L. Zhang, Y. Yu. Dealloying behavior of Mn-30Cu alloy in acetic acid solution. Corrosion Science 75 (2013) 256–261. (IF: 7.205, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. Fabrication and Dealloying Behavior of Monolithic Nanoporous Copper Ribbons with Bimodal Channel Size Distributions. Journal of Materials Science & Technology 28(8) (2012) 693-699. (IF: 8.067, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. A general dealloying strategy to nanoporous intermetallics, nanoporous metals with bimodal, and unimodal pore size distributions. Corrosion Science 58 (2012) 133-138. (IF: 7.205, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. Influence of phase constituent and proportion in initial Al-Cu alloys on formation of monolithic nanoporous copper through chemical dealloying in an alkaline solution. Corrosion Science 53 (2011) 809-814. (IF: 7.205, SCI, 2013年Elsevier旗下本领域下载量最高研究工作,并在发表期刊主页上highlight)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. A facile one-pot route to fabricate nanoporous copper with controlled hierarchical pore size distributions through chemical dealloying of Al-Cu alloy in an alkaline solution. Microporous and Mesoporous Materials 138 (2011) 1-7. (IF: 5.455, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. Facile one-pot synthesis of nanoporous copper ribbons with ideal bimodal pore size distributions through chemical dealloying. Journal of The Electrochemical Society 158 (2011) D611-D615. (IF: 4.316, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. Dealloying Behavior of Dual-Phase Al 40 at % Cu Alloy in an Alkaline Solution. Journal of The Electrochemical Society 158 (2011) D91-D94. (IF: 4.316, SCI)· W.B. Liu, S.C. Zhang, N. Li, J.W. Zheng, Y.L. Xing. Microstructure Evolution of Monolithic Nanoporous Copper from Dual-Phase Al 35 at % Cu Alloy. Journal of The Electrochemical Society 157 (2010) D666-D670. (IF: 4.316, SCI)· W.B. Liu, Y.H. Wen, N. Li, S.Z. Yang. Effects of electropulsing treatment on stress-induced e martensite transformation of a pre-deformed Fe17Mn5Si8Cr5Ni0.5NbC alloy. Materials Science and Engineering A 507 (2009) 114-116. (IF: 5.234, SCI)· W.B. Liu, Y.H. Wen, N. Li, S.Z. Yang. Further improvement of shape memory effect in a pre-defromed Fe-Mn-Si-Cr-Ni-Nb-C alloy by smaller NbC precipitated through eletropulsing treatment. Journal of Alloys and Compounds 472 (2009) 591-594. (IF: 5.316, SCI)现兼任国家科技专家库专家、国家自然科学基金评审专家、全国研究生教育评估监测专家库专家、四川省专家人才库专家、有色金属智库认证专家、中国能源学会专委会委员、AEIC学术交流中心专委会委员、美国科技协会和香港学者协会终身会员、中国微米纳米技术学会高级会员、中国化学会会员、中国化工学会会员、中国金属学会会员、中国宇航学会会员、香江学者联谊会副理事长、四川大学吴玉章荣誉学院指导教师、国家级大学生创新创业训练项目指导教师、四川省国际“互联网+”大学生创新创业大赛金奖指导教师、四川大学新能源材料与器件协会指导教师、Inernational Journal of Energy and Environmental Science等9个国际学术期刊编委,Chinese Chemical Letters、Energy & Environmental Materials和《特种铸造及有色金属》青年编委,以及一系列高水平国际知名学术期刊(Adv. Funct. Mater., Energy Storage Mater., Chem. Eng. J., J. Mater. Chem. A, Chem. Mater., J. Power Source, Corros. Sci., J. Phys. Chem. C, Phys. Chem. Chem. Phys., J. Alloy Compd., CrystEngComm, Ionics, New J. Chem.)长期审稿人,并多次受邀担任本领域国际知名学术会议(MTMCE 2021, MSEE 2021, MMEAT 2020, MTMCE 2020, CMME2019, ICMSE2019, AMTME 2018, PCM 2018, ESG 2018, CEES 2017, ICMSE2016等)大会/分会主席、组委会成员(OCM)、专委会成员(ECM)和技术委员会(TPC)成员。 相关热点
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