林仕伟海南大学教授、博士生导师
海南大学材料科学与工程学院副院长
Email:linsw@hainanu.edu.cn
个人主页:http://www.linswgroup.com/
联系方式:海南大学南海海洋资源利用国家重点实验室320室,海南省海口市人民大道58号(邮编:570228)
1977年10月生。入选教育部“新世纪优秀人才支持计划”、海南省“南海名家”支持计划、海南省领军人才,当选为中国青年科技工作者协会常务理事。
清华大学材料科学与工程系工学学士(1996-2000)、工学硕士(2000-2002);新加坡-美国麻省理工学院联盟微纳米系统先进材料专业理学硕士(2002-2003);英国曼彻斯特大学电子工程学院微电子与纳米结构专业博士(2003-2006)、博士后(2007-2008)、访问学者(2014-2015)。2007年加入海南大学,2008年11月晋升为教授,2011年遴选为博士生导师。
目前作为项目负责人已承担了国家自然科学基金等10余项国家、省部级科研项目。在国内外重要学术期刊上发表文章140多篇,参编英文学术专著3部,获得国际发明专利2项,国家发明专利授权2项。曾获海南省科技进步一等奖1项和三等奖2项、海南省高等学校优秀科研成果奖一等奖1项、海南省自然科学优秀学术论文一等奖1项等,并获得海南青年五四奖章、海南省青年科技奖、海南省优秀科技工作者等荣誉。
主要研究方向:
l 能源材料与器件:计算设计、可控制备及结构调控
l 光催化材料及应用:太阳燃料、太阳电池、光催化环境净化技术
l 敏感材料与传感器件:高灵敏集成式传感技术及应用
l 海洋能源转换、储存及管理技术
l 半导体物理与纳米电子器件:薄膜晶体管、柔性电子器件等
近期主持的主要项目:
[1] 国家自然科学基金,薄膜晶体管光电催化COD传感器的栅极结构调控及其敏感机理研究(项目编号:61764003),2018.1-2021.12。
[2] 海南省重大科技计划项目,面向新型人居环境的智能物联网关键技术研究及应用示范(项目编号:ZDKJ201810),课题一负责人:人居环境优化及智能综合监测技术研究,2018.1-2020.12。
[3] 国家自然科学基金,D4型光解水氧化物纳米阵列光阳极的制备及电荷转移机理研究,(项目编号:51462008),2015.1-2018.12。
[4] 海南省重点研发计划项目(科技合作方向),高效太阳能制氢光阳极的材料设计与开发(项目编号:ZDYF2017166),2017.1-2018.12。
[5] 海南省重点科技计划项目(海南省应用技术研究与开发专项),便携式低功耗微型甲醛气体传感器的研发(项目编号:ZDXM2014097),2014.1-2015.12。
[6] 国家自然科学基金,量子点敏化纳米管阵列光解水阳极材料制备及界面电子转移机制研究(项目编号:51202050),2013.1-2015.12。
获奖与荣誉
[1] 海南省科技进步奖一等奖,获奖项目:太阳能光催化污水处理新技术开发,主要完成单位:海南大学,第七完成人,2017年。
[2] 海南省科技进步奖三等奖,获奖项目:氧化物半导体结构调控及在能源与环境中的应用基础研究,主要完成单位:海南大学,第一完成人,2016年。
[3] 海南省科技进步奖三等奖,项目名称:基于溶液方法的有机场效应晶体管的研究,主要完成单位:海南大学,第一完成人,2012年。
[4] 第五届海南省优秀科技工作者(2012)
[5] 海南省高等学校2010年度优秀科研成果奖一等奖。
[6] 第十七届“海南青年五四奖章”(2011)。
[7] 入选2009年教育部“新世纪优秀人才支持计划”。
[8] 2007-2008年度海南省自然科学优秀学术论文一等奖。
[9] 第八届海南省青年科技奖 (2009)。
[10] 教育部“2006年国家优秀自费留学生奖学金”。
代表性科研论文(*通讯作者):
[1] Chang Cao, Xinxin Xie, Yamei Zeng, Shaohua Shi, Guizhen Wang, Liang Yang, Cai-Zhuang Wang,Shiwei Lin*,Highly efficient and stable p-type ZnO nanowires with piezotronic effect for photoelectrochemical water splitting,Nano Energy61, 550-558, 2019.
[2] Hewei Si, Nengqian Pan, Xidong Zhang, Jianjun Liao, M.N. Rumyantseva, A.M. Gaskov,Shiwei Lin*,A real-time on-line photoelectrochemical sensor toward chemical oxygen demand determination based on field-effect transistor using an extended gate with 3D TiO2nanotube arrays,Sensors and Actuators B: Chemical289, 106-113 (2019).
[3]Changzhi Ai, Pengcheng Xie, Xidong Zhang, Xusheng Zheng, Jin Li*, Andreas Kafizas*, andShiwei Lin*,Explaining the Enhanced Photoelectrochemical Behavior of Highly Ordered TiO2Nanotube Arrays: Anatase/Rutile Phase Junction,ACS Sustainable Chemistry & Engineering7(5), 5274–5282, 2019.
[4] Shengjue Deng, Fan Yang, Qinghua Zhang, Yu Zhong, Yinxiang Zeng,Shiwei Lin,*Xiuli Wang, Xihong Lu,* Cai-Zhuang Wang, Lin Gu, Xinhui Xia,* and Jiangping Tu,Phase Modulation of (1T-2H)-MoSe2/TiC-C Shell/Core Arrays via Nitrogen Doping for Highly Efficient Hydrogen Evolution Reaction,Advanced Materials, 1802223 (9), 2018.
[5] Jianjun Liao, Fan Yang, Cai-Zhuang Wang,Shiwei Lin*,The crystal facet-dependent electrochemical performance of TiO2nanocrystals for heavy metal detection: theoretical prediction and experimental proof,Sensors & Actuators B: Chemical271, 195-202 (2018).
[6] Qun Nie, Liang Yang, Chang Cao, Yamei Zeng, Guizhen Wang, Caizhuang Wang, andShiwei Lin*,Interface optimization of ZnO nanorod/CdS quantum dots heterostructure by a facile two-step low-temperature thermal treatment for improved photoelectrochemical water splitting,Chemical Engineering Journal325, 151-159, 2017.
[7] Shengjue Deng, Yu Zhong, Yinxiang Zeng, Yadong Wang, Zhujun Yao, Fan Yang,Shiwei Lin, Xiuli Wang, Xihong Lu,* Xinhui Xia,* and Jiangping Tu,Directional Construction of Vertical Nitrogen-Doped 1T-2H MoSe2/Graphene Shell/Core Nanoflake Arrays for Efficient Hydrogen Evolution Reaction,Advanced Materials, 1700748(8), 2017.
[8] Min Zeng, Xiange Peng, Jianjun Liao, Guizhen Wang, Yanfang Li, Jianbao Li, Yong Qin, Joshua Wilson, Aimin Song andShiwei Lin*,Enhanced photoelectrochemical performance of quantum dot-sensitized TiO2nanotube arrays with Al2O3overcoating by atomic layer deposition,Physical Chemistry Chemical Physics18, 17404-17413 (2016).
[9] Jianjun Liao,Shiwei Lin*, Min Zeng, and Yue Yang,A miniature photoelectrochemical sensor based on organic electrochemical transistor for sensitive determination of chemical oxygen demand in wastewaters,Water Research94, 296-304 (2016).
[10] Jianjun Liao,Shiwei Lin*, Yue Yang, Kai Liu, Wencai Du,Highly selective and sensitive glucose sensors based on organic electrochemical transistors using TiO2 nanotube arrays-based gate electrodes,Sensors & Actuators: B: Chemical208, 457-463 (2015).
[11] Chunfu Lin, Guizhen Wang,Shiwei Lin*, Jianbao Li, and Li Lu, TiNb6O17: a new electrode material for lithium-ion batteries,Chemical Communications51, 8970-8973 (2015).
[12] Chunfu Lin, Shu Yu, Shunqing Wu,Shiwei Lin*, Yanfang Li, Jianbao Li, and Li Lu,Ru0.01Ti0.99Nb2O7as an intercalation-type anode material with a large capacity and high rate performance for lithium-ion batteries,Journal of Materials Chemistry A3, 8627-8635 (2015).
[13] Xiaogan Li, Ning Chen,Shiwei Lin*, Jing Wang, Jianwei Zhang,NiO-Wrapped Mesoporous TiO2Microspheres Based Selective Ammonia Sensor at Room Temperature,Sensors and Actuators B: Chemical209, 729-734 (2015).
[14] Guizhen Wang, Xiange Peng, Lei Yu, Gengping Wan,Shiwei Lin*, and Yong Qin,Enhanced microwave absorption of ZnO coated with Ni nanoparticles produced by atomic layer deposition,Journal of Materials Chemistry A3, 2734-2740 (2015).
[15] Jianjun Liao,Shiwei Lin*, Kai Liu, Yue Yang, RuiRui Zhang, Wencai Du, Xiaogan Li,Organic electrochemical transistor based biosensor for detecting marine diatoms in seawater medium,Sensors and Actuators B: Chemical203, 677-682 (2014).
[16] Xiaojiao Zhang,Shiwei Lin*, Jianjun Liao, Nengqian Pan, Danhong Li, Xiankun Cao, and Jianbao Li,Uniform deposition of water-soluble CdS quantum dots on TiO2nanotube arrays by cyclic voltammetric electrodeposition: effectively prevent aggregation and enhance visible-light photocatalytic activity,Electrochimica Acta108, 296-303, (2013).
[17] Guizhen Wang, Zhe Gao, Shiwei Tang, Chaoqiu Chen, Feifei Duan, Shichao Zhao,Shiwei Lin, Yuhong Feng, Lei Zhou, and Yong Qin,Microwave Absorption Properties of Carbon Nanocoils Coated with Highly Controlled Magnetic Materials by Atomic Layer Deposition,ACS Nano, 6(12), 11009-11017 (2012).
[18] Jianjun Liao,Shiwei Lin*, Nengqian Pan, Danhong Li, Shipu Li, and Jianbao Li,Free-standing open-ended TiO2nanotube membranes and their promising through-hole applications,Chemical Engineering Journal211-212, 343–352 (2012).
[19] Jianjun Liao,Shiwei Lin*, Li Zhang, NengQian Pan, Xiankun Cao, Jianbao Li,Photocatalytic degradation of methyl orange using a TiO2/Ti mesh electrode with 3-D nanotube arrays,ACS Applied Materials & Interfaces4(1), 171?177 (2012).
[20]Shiwei Lin, Dongrong Li, Jian Wu, Xiaogan Li, and S.A. Akbar,A selective room temperature formaldehyde gas sensor using TiO2nanotube arrays,Sensors and Actuators B: Chemical156, 505-509 (2011).
[21]S. W. Lin, J. Du, C. Balocco, Q. P. Wang, and A. M. Song,Effects of bias cooling on charge states in heterostructures embedding self-assembled quantum dots,Physical Review B78, 115314(8) (2008).
[22]S. W. Lin, N. Rigopolis, B. Hamilton, M. Missous, A. R. Peaker, and A. M. Song,Combined Optical and Electrical Studies of the Effects of Annealing on the Intrinsic States and Deep Levels in a Self-Assembled InAs Quantum-Dot Structure,Journal of Applied Physics100, 043703(6) (2006).
[23]S. W. Lin, C. Balocco, M. Missous, A. R. Peaker, and A. M. Song,Coexistence of deep levels with optically active InAs quantum dots,Physical Review B72, 165302(7) (2005).
学术专著:
[1] Embossing Process, (Book Chapter), Shiwei Lin, Printing on Polymers: Fundamentals and Applications. Edited by Sabu Thomas and Joanna Izdebska, Elsevier Science Publishing Co Inc, pp. 279-292, 29 Sep 2015. ISBN: 978-0-32337-468-2.
[2] Photocatalytic Application of TiO2 Nanotube Arrays for Water Treatment, (Book Chapter), Jianjun Liao and Shiwei Lin*, Advances in Environmental Research. Volume 36. Edited by Justin A. Daniels, Nova Science Publishers, pp. 139-168, 2014-4th Quarter. ISBN: 978-1-63463-222-5. (978-1-63463-241-6 ebook)
[3] Investigations of Electronic States in Self-Assembled InAs/GaAs Quantum-Dot Structures, (Book Chapter), S. W. Lin and A. M. Song, Quantum Dots: Research, Technology and Applications, Edited by Randolf W. Knoss, Nova Science Publishers, pp. 47-107, 2008. ISBN: 978-1-60456-930-8.
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