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林思劼
发布时间 : 2018-05-24

职务:教授 

博士/硕士导师:博士生、硕士生导师

办公室电话:021-65982325

电子邮箱:lin.sijie@tongji.edu.cn

所在系所(部门):环境科学系

校内外学术及行政兼职:环境科学系 副系主任;J Environ Sci Public Health编委

课题组主页:www.environmentalnanolab.com


主要研究方向

  • 纳米材料的生物及环境安全性评价

  • 功能性纳米材料及装置的开发与环境应用

  • 高通量环境安全性检测平台的建立与应用(基于斑马鱼等模式生物)


工作经历

       2016.1-至今            同济大学 教授

       2015.12015.12      美国加州大学洛杉矶分校 (UCLA) 项目科学家

       2010.72014.12      美国加州大学洛杉矶分校 (UCLA)  博士后 


教育背景

       2007.82010.5        美国克莱姆森大学 (Clemson University) 博士

       2005.82007.7        美国克莱姆森大学(Clemson University)硕士

       2001.92005.7        同济大学学士


教育情况

  1. 主讲研究生课程《环境纳米科学与技术》;联合国学院全英文课程《Literature Review and Scientific Writing》;通识课程《环境、纳米与我们》

  2. 指导本科生创新实验


科研项目

  1. 上海市科委“创新行动计划“”一带一路“青年科学家交流国际合作项目,2017.11 - 2019.11,主持

  2. 国家自然科学基金面上项目:2018 – 2021,主持

  3. 国家自然科学基金青年项目:2017 – 2019,主持

  4. 中组部第六批青年项目,2015,主持

  5. 同济大学交通工程学院高峰高原交叉学科项目,2017-2018,主持

  6. 美国半导体行业协会(SRC)项目,2015 – 2018,主持

  7. 美国国家科学基金委/环保部项目,2013 – 2018,参与   


代表学术论文

  • Lin, S., Yu, T., Yu, Z., Hu, X. and Yin, D. Nanomaterials Safer-by-Design: An Environmental Safety Perspective. Adv Mater 2018, 1705691. Inside Cover.

  • Amorim, M., Lin, S., Schlich, K., et al. Environmental Impacts by Fragments Released from Nano-enabled Products? A Multi-assay, Multi-material Exploration by the SUN Approach. Environ Sci Technol 2018, 52, 1514-1524.

  • Dong, S., Xia, T., Yu, Y., Lin, S., Mao, L. Bioaccumulation of 14C-labeled Graphene in an Aquatic Food Chain through Direct Uptake or Trophic Transfer. Environ Sci Technol 2018, 52, 541-549.

  • Ke, P. C., Lin, S., Parak, W. J., Davis, T. P. and Caruso, F. A. Decade of the Protein Corona. ACS Nano2017, 11, 11773-11776. 

  • Osin, O., Yu, T. and Lin, S.* Oil Refinery Wastewater Treatment in Niger Delta, Nigeria: Current Practices, Challenges and Recommendations. Environ Sci Pollut Res 2017, 24, 22730-22740.

  • Lin, S.,* Mortimer, M., Chen, R., Kakinen, A., Riviere, J.E., Davis, T.P., Ding, D. and Ke, P.C. NanoEHS beyond Toxicity – Focusing on Biocorona. Environ Sci Nano2017, 7, 1433-1454. Front Cover.

  • Keller, A., Adeleyea, A., Conwaya, J, Garnera, K., Zhao, L., Cherr G., Hong, J., Gardea-Torresdey J., Godwin, H., Hanna S., Jia, Z., Kaweeteerawata, C., Lin S.,et al. Comparative Environmental Fate and Toxicity of Copper Nanomaterials. NanoImpact2017, 7, 28-40.

  • Osborne, O., Lin, S., Jiang, W., Chow, J., Chang, C.H., Ji, Z., Yu, X., Lin, S., Xia, T. and Nel, A.E. Differential Effect of Micron- versus Nanoscale III-V Particulates and Ionic Species on the Zebrafish Gut. Environ Sci Nano2017, 4, 1350-1364.

  • Lu, K., Dong, S., Petersen, E., Niu, J., Chang, X., Wang, P., Lin, S., Gao, S. and Mao, L. Biological Uptake, Distribution and Depuration of Radio-Labeled Graphene in Adult Zebrafish: Effects of Graphene Size and Natural Organic Matter. ACS Nano2017, 11, 2872-2885.

  • Jiang, W., Wang, X., Osborne, O., Lin, S.et al. Pro-Inflammatory and Pro-Fibrogenic Effects of Ionic and Particulate Arsenide and Indium-Containing Semiconductor Materials in the Murine Lung. ACS Nano2017, 11, 1869–1883.

  • Naatz, H., Lin, S., Li, R., et al. Safe-by-Design of CuO Nanoparticles via Fe-Doping, Cu-O Bond Lengths Variation, and Biological Assessment in Cells and Zebrafish Embryos. ACS Nano2017, 11, 501-515.

  • Lin, S.,* Wang, H. and Yu, T. A Promising Trend for Nano-EHS Research – Integrating Fate and Transport Analysis with Safety Assessment using Model Organisms. NanoImpact2017, 7, 1-6.

  • Zhao, H., Osborne, O. J., Lin, S.,et al. Lanthanide Hydroxide Nanoparticles Induce Angiogenesis via ROS-Sensitive Signaling. Small2016, 12, 4404-4411.

  • Lin S., Taylor A. A., Ji Z., Chang C. H., Walker T., Walker S., and Nel A. E. Understanding the Transformation, Speciation, and Hazard Potential of Copper Particles in a Model Septic Tank System Using Zebrafish to Monitor the Effluent. ACS Nano20159, 2038-2048.

  • Lin S., Wang, X., Ji Z., Chang C. H., Dong, Y., Meng, H., Liao, Y. P., Wang, M., Song, T. B., Kohan, S., Xia, T., Zink, J. I., Lin, S. and Nel A. E. Aspect Ratio Plays a Role in the Hazard Potential of CeO2 Nanoparticles in Mouse Lung and Zebrafish Gastrointestinal Tract. ACS Nano20148, 4450-4464.

  • Lin S., Zhao Y., Ji Z., Ear J., Chang C.H., Zhang H., Low-Kam C., Yamada K., Meng H., Wang X., Liu R., Pokhrel S., Mädler L., Damoiseaux R., Xia T., Godwin H.A., Lin S. and Nel A.E. Zebrafish High-Throughput Screening to Study the Impact of Dissolvable Metal Oxide Nanoparticles on the Hatching Enzyme, ZHE1.Small20139, 1776-1785. Frontispiece.

  • Lin S., Zhao Y., Nel A.E. and Lin S. Zebrafish: An In Vivo Model for Nano EHS Studies. Small20139, 1608-1618.

  • Lin S., Zhao Y., Xia T., Huan M., Ji Z., Liu R., George S., Xiong S., Wang X., Zhang H., Pokhrel S., Mädler L., Damoiseaux R., Lin S. and Nel A.E. High Content Screening in Zebrafish Speeds up Hazard Ranking of Transition Metal Oxide Nanoparticles. ACS Nano20115, 7284-7295.

  • Lin S., Bhattacharya P., Brune D.E. Rajapakse N. and Ke P.C. Effects of Quantum Dots Adsorption on Algal Photosynthesis. J Phys Chem C2009, 113, 10962-10966.

  • Lin S., Reppert J., Hu Q., Hudson J.S., Reid M.L., Ratnikova T., Rao A.M., Luo H. and Ke P.C. Uptake, Translocation and Transmission of Carbon Nanomaterials in Rice Plants. Small2009, 5, 1128-1132.

  • Lin S., Keskar G., Wu Y., Wang X., Mount A.S., Klaine S.J., Moore J.M., Rao A.M. and Ke P.C. Detection of Phospholipid-Carbon Nanotube Translocation Using Fluorescence Energy Transfer. Appl Phys Lett2006, 89, 143118.


校内外学术兼职情况

       担任J Environ Sci Public Health编委;ACS Nano, Environ. Sci Technol., ES&T Letters, J Phys Chem, J Am Chem Soc, Environ Chem Toxicol等国际期刊审稿人


获奖情况


       2012获加州大学洛杉矶分校校长奖题名

  

欢迎具有环境化学、材料科学、环境毒理学等相关专业背景的老师、同学加盟课题组!



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