济南大学研究生招生信息

081700|化学工程与技术专业博士研究生指导教师

姓名 林伟英 性别
民族汉族出生年月1968-06
学历|学位研究生|博士专业技术职务
行政职务院长
联系电话0531-82769031移动电话
邮箱weiyinglin2013@163.com
通讯地址 | 邮编山东省济南市南辛庄西路336号济南大学光功能材料与成像研究院 | 250022
招生方向(领域) 05(全日制)化学传感分析与技术
研究领域、学习工作经历、学术兼职等情况

林伟英, , 国家有突出贡献中青年专家,国家百千万人才工程国家级人选,济南大学光功能材料与成像研究院院长,二级教授,博导。长期专注于荧光探针与生物医学成像方面的研究,做出了较系统性的研究成果。作为通讯作者,应邀撰写一系列综述包括 Accounts of Chemical ResearchChemical Society Reviews 和多个专章。作为通讯作者,发表高水平论文160余篇,包括 J. Am. Chem. Soc.Angew. Chem. Int. Ed.、 Chemical ScienceAdvanced Materials Advanced Functional Materials等。 SCI引用近8千次,单篇引用超过200次的论文8 篇。申请/授权发明专利63项。

 
代表性科研成果及奖励:
(包括项目、鉴定、论文、专著、专利等)

作为通讯作者发表的20代表论文

  1. A Unique “Integration” Strategy for the Rational Design of Optically Tunable Near-Infrared Fluorophores.  Accounts of Chemical Research.  2017, 50, 1410 -1422.
  2. FRET-based Small-molecule Fluorescent Probes: Rational Design and Bioimaging Applications.  Accounts of Chemical Research. 2013, 46, 1462-1473.          
  3. Fluorescent chemosensors manipulated by dual/triple interplaying sensing mechanisms.  Chemical Society Reviews.  2016, 45, 6449 – 6461.    
  4.  Development of fluorescent probes based on protection-deprotection of the key functional groups for biological imaging.  Chemical Society Reviews.  2015, 44, 5003- 5015.   
  5.  Far-red to Near Infrared Analyte-responsive Fluorescent Probes Based on Organic Fluorophore Platforms for Fluorescence Imaging.    Chemical Society Reviews.  2013, 42, 622-661. 
  6. Simultaneous Near-Infrared and Two-photon in vivo Imaging of H2O2 Using a Ratiometric Fluorescent Probe Based on the Unique Oxidative Rearrangement of Oxonium.   Advanced Materials.  2016, 28, 8755-8759.
  7. Single fluorescent probe responds to H2O2, NO, and H2O2/NO with three different sets of fluorescence signals.  Journal of the American Chemical Society. 2012, 134, 1305 -1315.   
  8. A Unique Class of Near-infrared Functional Fluorescent Dyes with Carboxylic-Acid-Modulated Fluorescence ON/OFF Switching: Rational Design, Synthesis, Optical Properties, Theoretical Calculations, and Applications for Fluorescence Imaging in Living Animals. Journal of the American Chemical Society.  2012, 134, 1200 - 1211.   
  9. A Unique Approach to Development of Near-infrared Fluorescent Sensors for in Vivo Imaging. Journal of the American Chemical Society. 2012, 134, 13510−13523.  
  10. Rational design of a robust fluorescent probe for detecting endogenous carbon monoxide in living zebrafish embryos and mice. Angewandte Chemie International Edition.  2017, DOI:10.1002/anie.201707518
  11. Development of a Two-photon Fluorescent Probe for Imaging of Endogenous Formaldehyde in Living Tissues. Angewandte Chemie International Edition. 2016, 55, 3356-3359.           
  12. A Unique Family of GFP-chromophore Rigid Analogues with Tunable Two-photon Action Cross-sections for Biological Imaging.  Angewandte Chemie International Edition2013, 52, 10018 -10022.
  13. Lighting up Carbon Monoxide: Fluorescent Probes for Monitoring Carbon Monoxide in Living Cells.  Angewandte Chemie International Edition.  2013, 52, 1628 - 1630.  
  14. Through-Bond Energy Transfer Cassettes with Minimal Spectral Overlap between the Donor Emission and Acceptor Absorption: Coumarin-rhodamine Dyads with Large pseudo-Stokes Shifts and Emission Shifts.   Angewandte Chemie International Edition.  2010, 49, 375 -379
  15. Development of a unique class of spiro-type two-photon functional fluorescent dyes and their applications for sensing and bioimaging. Advanced Functional Materials.  2016, 26, 8128-8136.    
  16. A Fluorescent Cobalt Probe with a Large Ratiometric Fluorescence Response via Modulation of Energy Acceptor Molar Absorptivity on Metal Ion Binding. Advanced Functional Materials.  2008, 18, 2366-2372.    
  17. A multi-signal fluorescent probe for simultaneously distinguishing and sequentially sensing cysteine/homocysteine, glutathione, and hydrogen sulfide in living cells.  Chemical Science,  2017, 8, 6257- 6265.   
  18. Single near-infrared fluorescent probe with high and low sensitivity sites for sensing different concentration ranges of biological thiols with distinct modes of fluorescence signals.  Chemical Science,  2016, 7, 1896 - 1903.    
  19.  A Simple and Effective “Capping” Approach to Readily Tune the Fluorescence of Near-infrared Cyanines.  Chemical Science,  2015, 6, 4530-4536.   
  20. A Unique Carbazole-Coumarin Fused Two-Photon Platform: Development of a Robust Two-Photon Fluorescent Probe for Imaging Carbon Monoxide in Living Tissues.  Chemical Science,  2014, 5, 3439-3448.
教学及研究生培养情况

指导(毕业和在读)博士生和硕士研究生近40名。

 
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