个人简介
姓名(Name):水玲玲(Lingling SHUI)
职称(Position):教授(Professor)
工作单位(Institution):华南师范大学信息光电子科技学院
联系方式(Contact):SHUILL@m.scnu.edu.cn
工作经历:
2018.11-现在 华南师范大学—信息光电子科技学院 院长
2016.11-现在 华南师范大学—华南先进光电子研究院 副院长
2013.10-现在 华南师范大学--华南先进光电子研究院 教授
2012.03-2013.10 华南师范大学--华南先进光电子研究院 特聘教授
2009.04–2012.04 荷兰特文特大学--电子工程系 博士后
2008.01-2008.06 美国加州大学圣巴巴拉分校--机械工程系 访问学者
2010.01-2010.02 新加坡南洋理工大学电气电子工程学院 访问学者
教育背景:
2005.04-2009.03 荷兰 特文特大学--电子工程系 博士
2003.09-2004.07 比利时鲁汶大学和根特大学--食品科学与技术 硕士
2000.09-2003.07 山东大学--化学与化工学院 硕士
1996.09-2000.06 山东大学--化学与环境学院 学士
科学研究:
围绕光电信息显示和传感技术应用重大需求,采用微纳加工技术结合功能材料构建微流控单元,开展反射式显示、柔性显示、光电传感材料与器件领域的基础研究和应用基础研究。自2015年4月起,担任华南师范大学-特文特大学(荷兰)国际联合实验室“光流控技术与系统”(LOTS: International Laboratory of Optofluidic Technology and System)中方主任。教育部“创新团队发展计划”第一核心成员;教育部“光信息国际联合作联合实验室”光信息传感方向负责人;国家绿色光电子国际联合研究中心核心骨干成员;广东省“光信息材料与技术”重点实验室副主任;广东省“光流控材料与器件”工程技术研究中心副主任。
主持国家级项目4项(重点研发计划课题、国家基金面上项目、国家基金青年项目、国家基金国际合作项目),省部级项目4项(广东省重点应用专项、广东省重大科技专项、广东省平台建设项目、广东省自然科学基金项目),以及横向项目2项。
目前已经发表SCI论文120多篇,包括ACS Nano,Small, Advanced Materials,ACS Optical Materials, Lab on a Chip, Sensors and Actuators B等,他引超过1600次,H因子22;申请专利80多件(已经授权60多件)。
担任Lab on a Chip和Micromachines杂志客座编辑;主办国际学术会议“Optofluidics2014”1次;担任2个国际会议组委会委员;国际学术会议特邀和邀请报告30多次。
教学情况:
讲授课程包括专业英语应用、博士英语、胶体与界面化学、材料物理与化学、微流控芯片实验室、信息素养(广东省一流本科课程、MOOC开放课程)。
荣誉称号:
2020年,广东省先进女职工个人;2018年,IMCO(上海)墙报一等奖;2017年,Optofluidics“创新科学家奖”;2017年,“中国高等教育学会科技管理研究分会年度优秀论文奖”;2014年,广东省“粤木棉”称号;2010年,广州留交会“海外杰出青年”代表;2008年,国家“优秀自费留学”生奖学金。
代表性科研成果:
关键词:光电传感、印刷显示、光流控、微纳加工、界面自组装、精准医疗、微全分析系统
近3年代表性论文:
1) Microfluidics assisted fabrication of three-tier hierarchical microparticles for constructing bioinspired surfaces, Juan Wang#, Hai Le-The, Zuankai Wang, Hao Li, Mingliang Jin, Albert van den Berg, Guofu Zhou, Loes I. Segerink, Lingling Shui*, Jan C. T. Eijkel, ACS Nano, 2019, 13(3): 3638-3648.
2) Mass transport determined silica nanowires growth on spherical photonic crystals with nanostructure-enabled functionalities, Juan Wang#, Eiko Y. Westerbeek, Albert van den Berg, Loes I. Segerink, Lingling Shui*, Jan C. T. Eijkel, Small, 2020, 2001026.
3) Multilevel spherical photonic crystals with controllable structures and structure-enhanced functionalities, Advanced Optical Materials, Juan Wang#, Hai Le-The, Lingling Shui*, Johan G. Bomer, Mingliang Jin, Guofu Zhou, Paul Mulvaney, Pepijn W. H. Pinkse, Albert vanden Berg, Loes I. Segerink, Jan C. T. Eijkel, Advanced Optical Materials, 2020, 1902164.
4) Plasmonic Nanocrystal Arrays on Photonic Crystals with Tailored Optical Resonances, Juan Wang #*, Hai Le-The, Theodosios Karamanos, Radius N.S. Suryadharma, Albert van den Berg, Pepijn W. H. Pinkse, Carsten Rockstuhl, Lingling Shui*, Jan C. T. Eijkel, Loes I. Segerink, ACS Applied Materials and Interfaces, 2020, 12: 37657-37669.
5) Janus nanoparticles with tunable amphiphilicity for stabilizing pickering-emulsion droplets via assembly behavior at oil−water interfaces, Shuting Xie#, Sheng Chen, Qifan Zhu, Xing Li, Dan Wang, Shitao Shen, Mingliang Jin, Guofu Zhou, Yonggang Zhu, Lingling Shui*, ACS Applied Materials and Interfaces, 2020, 12, 23, 26374-26383.
6) In-Channel responsive surface wettability for reversible and multiform emulsion droplet preparation and applications, Lanhui Li#, Zhibin Yan, Mingliang Jin, Xiangshen You, Shuting Xie, Zhenping Liu, Albertvan den Berg, Jan Cornelis Titus Eijkel, Lingling Shui*, ACS Applied Materials and Interfaces, 2019, 11: 16934-16943
7) Interfacial complexation induced controllable fabrication of stable polyelectrolyte microcapsules using all-aqueous droplet microfluidics for enzyme release, Yiying Zou#, Jing Song#. Xiangshen You, Jiyuan Yao Shuting Xie, Mingliang Jin, Xin Wang, Zhibin Yan, Guofu Zhou, Lingling Shui*, ACS Applied Materials & Interfaces, 2019,11(23): 21227-21238.
8) A simple capillary-based open microfluidic device for size on-demand high-throughput droplet/ bubble/microcapsule generation, Liping Mei#, Mingliang Jin, Shuting Xie, Zhibin Yan, Xin Wang, Guofu Zhou, Albert van den Berg, Lingling Shui*, Lab on a Chip, 2018, 18, 2806
9) Continuous fabrication of microcapsules with controllable metal covered nanoparticle arrays using droplet microfluidics for localized surface plasmon resonance, Juan Wang#, Mingliang Jin, Yingxin Gong, Hao Li, Sujuan Wu, Zhang Zhang, Guofu Zhou, Lingling Shui*, Jan Cornelis Titus Eijkel, Albert van den Berg, Lab on a Chip, 2017, 17, 1970.
10) Uniform honeycomb CNT-microparticles prepared via droplet-microfluidics and sacrificial nanoparticles for electrochemical determination of methyl parathion, Jiyuan Yao#, Zhenping Liu#, Mingliang Jin, Yiying Zou, Jiamei Chen, Peng Xie, Xin Wang, Eser Metin Akinogluc, Guofu Zhou, Lingling Shui*, Sensors and Actuators B: Chemical, 2020, 321, 128517.
11) Electrowetting on liquid-infused membrane for flexible and reliable digital droplet manipulation and application, Jieping Cao#, Qi An#, Zhenping Liu, Mingliang Jin, Zhibin Yan, Weijie Lin, Lin Chen, Pengfei Li, Xin Wang, Guofu Zhou, Lingling Shui*, Sensors and Actuators B: Chemical, 2019, 291: 470-477.
12) Molecularly imprinted polymer decorated 3D-framework of functionalized multi-walled carbon nanotubes for ultrasensitive electrochemical sensing of Norfloxacin in pharmaceutical formulations and rat plasma, Zhenping Liu#, Mingliang Jin, Han Lu, Jiyuan Yao, Xin Wang, Guofu Zhou, Lingling Shui*, Sensors and Actuators B: Chemical, 2019, 288: 363-372.
13) Ag nano-assemblies on Si surface via CTAB-assisted galvanic reaction for sensitive and reliable surface-enhanced Raman scattering detection, Han Lu#, Mingliang Jin*, Qilin Ma, Zhibin Yan, Zhenping Liu, Xin Wang, Eser Metin Akinoglu, Albert van den Berg, Guofu Zhou, Lingling Shui*, Sensors and Actuators B: Chemical, 2020, (304):127224.
14) Electrochemical sensor integrated microfluidic device for sensitive and simultaneous quantification of dopamine and 5-hydroxytryptamine, Zhenping Liu#, Mingliang Jin, Jieping Cao, Ruiwen Niu, Pengfei Li, Guofu Zhou,Ying Yu, Albert van den Berg, Lingling Shui*, Sensors and Actuators B: Chemical, 2018, 273, 873-883.
15) High-sensitive electrochemical sensor for determination of Norfloxacin and its metabolism using MWCNT-CPE/pRGO-ANSA/Au, Zhenping Liu#, Mingliang Jin, Jieping Cao, Juan Wang, Xin Wang, Guofu Zhou, Albert van den Berg, Lingling Shui*, Sensors and Actuators B: Chemical, 2018, (257):1065-1075.
16) Microfluidic fabrication of responsive hierarchical microscaleparticles from macroscale materials and nanoscale particles, Juan Wang#, Jan Cornelis Titus Eijkel, Mingliang Jin, Shuting Xie, Dong Yuan, Guofu Zhoua, Albert van den Berg, Lingling Shui*, Sensors and Actuators B: Chemical, 2017, (247) :78–91.
17) In-situ visual and ultrasensitive detection of phosmet using a fluorescent immunoassay probe, Lina Zhou #, Yujuan Cao, Bixia Lin, Shuhua Song, Yu Ying*, Lingling Shui*, Sensors and Actuators B: Chemical, 2017, 241: 915–922.
代表性专利
1) 填充液填充器件及其制备方法和电润湿填充液的填充方法,授权发明专利,申请 号:201710769405.5
2) 一种电润湿显示器中填充油墨的方法,授权发明专利,申请号: 201610654049.8
3) 一种基于声表面波技术的显示装置及方法,授权发明专利,申请号: 201510567264.X
4) 聚酰亚胺柔性透明基板及其制备方法、电润湿显示器件,授权发明专利,申请号: 201510559604.4
5) 电润湿显示装置基板的制备方法、电润湿显示装置,授权发明专利,申请号: 201510512331.8
6) 电润湿基板及其制备方法、电润湿组件,授权发明专利,申请号: 201510041478.3
7) 电润湿显示下基板的制备方法,授权发明专利,申请号: 201510512530.9
8) 一种电润湿显示装置基板的制备方法及电润湿显示装置,授权发明专利,申请号: 201510512541.7
9) 电湿润显示器的制作方法,授权发明专利,申请号: 104007548B
10) 一种电润湿显示器件的制备方法,授权发明专利,申请号: 201410028351.3