姓名: | 赵奕平 |
性别: | 男 |
出生年月: | 1969.04 |
学历: | 研究生/博士 |
职务: | |
职称: | 教授 |
Email: | |
联系电话: | 15852239109 |
专业与主要研究方向: | |
1.光学工程:纳米薄膜制备、纳米机器人、化学和生物传感器、纳米仿生材料和氢储能材料 2.光学:纳米光子晶体、等离子纳米光学 | |
教授课程: | |
1.微纳光学 2.现代光学 | |
研究生培养基础要求: | |
光电、物理、电子、生物、化学或材料等专业背景,对科研感兴趣、有团队合作精神的学生均可报考。 | |
个人教育简历: | |
1995/01 - 1999/08,美国伦斯勒理工学院,物理系,博士 1991/09 - 1994/07,中国科学院,半导体研究所,硕士 1987/09 - 1991/07,北京大学,电子学系,学士 | |
个人工作简历: | |
2014/07 - 至今,江苏师范大学,江苏省先进激光技术与新兴产业协同创新中心,特聘教授 2010/07 - 至今,美国佐治亚大学,物理学与天文学系&纳米科学与工程中心,教授 2007/07 - 2010/06,美国佐治亚大学,物理学与天文学系,副教授 2002/08 - 2007/06,美国佐治亚大学,物理学与天文学系,助理教授 2000/08 - 2002/07,美国伦斯勒理工学院,物理系,研究助理教授 1999/08 - 2000/07,美国伦斯勒理工学院,物理系,研究助理 | |
社会兼职: | |
SPIE Fellow(国际光学学会会士),AVS Fellow(美国真空协会会士),美国物理学会、材料学会和Sigma Xi科学研究会成员 | |
近期主要主持的项目: | |
1.美国国家科学基金项目(CMMI-1435309),Template Based Fabrication of Three Dimensional Optical Metamaterials,2014/08–2017/07,25.0001万美元,项目负责人。 2.美国国家科学基金项目(BET-1303134),Kinetics of Autonomous Catalytic Nanomotors in Confined and Crowded Environments,2013/07–2016/06,35.9930万美元,项目负责人。 3.美国国立卫生研究院基金项目(R21 NS084148-01A1),Nanomotors for Thrombolytic Therapy after Stroke,2014/03–2016/02,27.5万美元,项目负责人。 4.美国农业部项目(2011-68003-30012),Technologies as Multiple Hurdles to Inactivate Shiga Toxin-Producing Escherichia coli and Viruses during Beef Processing and on Non-intact Beef,2010/01–2015/12,499.00万美元,项目负责人。 5.美国国家科学基金项目(CBET-1064228),SERS Based Micro-Sensor Arrays for Quantitative miRNAs Detection,2011/09-2015/08,40.9999万美元,项目负责人。 6.美国国家科学基金项目(ECCS-1029609),Rationally Designed Three- Dimensional Nanostructures for Surface Enhanced Raman Spectroscopy、2010/10–2015/03,32.9704美元,项目负责人。 7.国家自然科学基金海外及港澳学者合作研究项目(51228101),Ag基纳米结构的表面增强拉曼效应研究,2013/01-2014/12,20万元,项目负责人。 8.美国国立卫生研究院基金项目(R21-AI096364),Nanotechnology-Based Detection of Mycoplasma pneumonia,2012/08–2014/08,27.5万美元,项目负责人。 | |
代表性论文: | |
1.Bin Ai, Pradip Basnet, Steven Larson, Whitney Ingram, and Yiping Zhao, Plasmonic Sensor with High Figure of Merit Based on Differential Polarization Spectra of Elliptical Nanohole Array, Nanoscale 9:14710-14721 (2017). 2.Whitney Ingram, Steven Larson, Daniel Carlson, and Yiping Zhao, Ag-Cu mixed phase plasmonic nanostructures fabricated by shadow nanosphere lithography and glancing angle co-deposition, Nanotechnology 28: 015301 (2017). 3. Layne Bradley and Yiping Zhao, Uniform plasmonic response of colloidal Ag patchy particles prepared by swinging oblique angle deposition, Langmuir 32: 4969-4974 (2016). 4.Jiangnan Hu, Weijie Huang, Shengwei Huang , Qichuan ZhuGe, Kunlin Jin, and Yiping Zhao, Magnetically active Fe3O4 nanorods loaded with tissue Plasminogen activator for enhanced thrombolysis, Nano Research, 9: 2652-2661(2016). 5.F. Chen, B. R. Flaherty, C. E. Cohen, D. S. Peterson, and Y. Zhao,Direct detection of malaria infected red blood cells by surface enhanced Raman spectroscopy, Nanomedicine: Nanotechnology, Biology, and Medicine, 6, 1445-1451(2016). 6.Yizhuo He, Keelan Lawrence, Whitney Ingram and Y.-P. Zhao,Circular dichroism based refractive index sensing using chiral metamaterials, Chem. Com.52, 2047-2050 (2016). 7.Y.-T. Wu, B. Yang, and Y.-P. Zhao, Thermophoresis of aerosol particles in near-critical vapor: An inverse size effect,Appl. Phys. Lett.106, 251605 (2015). 8.Rui Cheng, Weijie Huang, Lijie Huang, Bo Yang, Leidong Mao, Kunlin Jin, Qichuan Zhuge, and Yiping Zhao, Acceleration of tissue plasminogen activator mediated thrombolysis by magnetically powered nanomotors, ACS Nano, 8: 7746-7754(2014). 9.Yizhuo He, George Larsen, Whitney Ingram, and Yiping Zhao,Tunable 3D helically stacked plasmonic layers on nanosphere monolayers, Nano Lett.,14: 1976-1981(2014). 10.Kun Yao, Ryan Toole, Pradip Basnet, and Yiping Zhao, Highly sensitive double-layered nanorod array gas sensors prepared by oblique angle deposition,Appl. Phys. Lett. 104, 073110 (2014). 11.Justin L. Abell, Jeremy D. Driskell, and Y.-P. Zhao, Controllable and reversible hot spot formation on Silver nanorod arrays, Chem. Com. 50: 106-108(2014). 12.George Larsen, Yizhuo He, Whitney Ingram, and Yiping Zhao, Hidden chirality in superficially racemic patchy Silver films, Nano Lett., 13, 6228-6232 (2013). 13.Manoj Manjare, Bo Yang, and Y.-P. Zhao, Bubble driven quasi-oscillatory translational motion of catalytic micromotors, Phys. Rev. Lett., 109:128305 (2012). 14.J. P. Singh, HsiaoYun Chu, Justin Abell, Ralph A. Tripp, and Yiping Zhao, Flexible and mechanical strain resistant large area SERS active substrates. Nanoscale, 4:3410-3414(2012). 15.Justin Abell, Jeonifer Garren, Jeremy Driskell, Ralph Tripp, and Yiping Zhao, Label-free detection of microRNA hybridization using surface-enhanced Raman spectroscopy (SERS) and least-squares analysis. J. Amer. Chem. Soc.,134: 12889-12892(2012). | |
专利: | |
1.Yiping Zhao, Justin L. Abell, and Jing Chen, “Thin layer chromatography-surfaced enhanced Raman spectroscopy chips and methods of use,” US Patent #8,810,789. 2.Yiping Zhao and Xiaobing Du, “Methods of melamine detection and quantification,” US Patent #8,107,070. 3.R. A. Dluhy, R. A. Tripp, Y.-P. Zhao, and J. Driskell, “Surface enhanced Raman spectroscopy (SERS) systems for the detection of viruses and methods of use thereof,” US Patent #7,940,387. 4.Duncan C. Krause, Suzanne Marie Larkin Hennigan, Richard A. Dluhy, Jeremy Driskell, Yiping Zhao, and Ralph A. Tripp, Surface enhanced Raman spectroscopy (SERS) systems for the detection of bacteria and methods of use thereof , US Patent #7,889,334. 5.Yiping Zhao, Richard A. Dluhy, Ralph A. Tripp, Yao-wen Huang, Hsiao Yun Chu, and Liu, Yongjun, Methods of use for surface enhanced Raman spectroscopy (SERS) systems for the detection of bacteria, US Patent #7,880,876. 6.Y.-P. Zhao, R. A. Dluhy, R. A. Tripp, S. Chaney, and S. Shanmukh, “Surface enhanced Raman spectroscopy (SERS) systems, substrates, fabrication thereof, and methods of use thereof,” US Patent #7,738,096. 7.Y.-P. Zhao and J.-G. Fan, “Structures having aligned nanorods and methods of making,” US Patent #7,658,991. 8.Y.-P. Zhao and Y.-J. Liu, “Fiber Optic SERS sensor systems and SERS probes,” US Patent #7,656,525. 9.Y.-P. Zhao, R. A. Dluhy, R. A. Tripp, S. Chaney, and S. Shanmukh, “Novel virus biosensors based on nanostructured SERS probes,” US Patent #7,583,379. 10.Y.-P. Zhao, Y.-C. Chen, N. R. Raravikar, X.-C. Zhang , P. M. Ajayan, T.-M. Lu, and G.-C. Wang, “An ultrafast all-optical switch using single-walled carbon nanotube polymer composites,” US Patent #6,782,154. | |
