吴翔

研究员,博士生导师。

研究领域:微纳光子学、光流控以及生物医学光子学等多学科前沿交叉领域。

中国光学学会、中国光学工程学会高级会员,中国光学学会生物医学光子学专业委员会委员,美国光学学会(OSA)会员。

办公地址:上海复旦大学光科学与工程系 200433

邮箱:wuxiang at fudan.edu.cn

教育经历

  • 1999.9~ 2004.6 浙江大学光电系, 光学工程专业, 博士

  • 1995.9~ 1999.6 湖南大学应用物理系, 物理学专业, 学士

工作经历

  • 2014.12~迄今 复旦大学信息学院光科学与工程系 研究员

  • 2010.2~2014.12    复旦大学信息学院光科学与工程系 副教授

  • 2007.4~2010.2   复旦大学信息学院光科学与工程系 讲师

  • 研究经历

  • 2013.2~2014.2  访问学者  美国密歇根大学生物医学与工程系

  • 2009.3~2009. 6  访问学者  美国密苏里大学生物科学与工程系

  • 2004.9~2007. 1  博士后     复旦大学信息学院光科学与工程系

  • 2001.5~2002. 5  访问学者  日本滨松光子学公司

科研方向

  • 光学传感

  • 微纳光子学

  • 生物医学光子学

科研项目

  1. “全波段全光纤气体传感器”,2016.7-2019.12,科技部重点研发计划青年项目,课题负责人

  2. “基于光微流环形谐振腔的纳米生物光镊技术研究”,2014.1-2017.12,国家自然科学基金面上项目,项目负责人

  3. “极低探测极限光微流回音壁模耦合微腔无标记生物传感新机制与原型样机研究”,2014.1-2017.12, 国家自然科学基金仪器专项,课题骨干

  4. “活体脑多光子显微结构与功能成像关键技术研究”, 2015.1-2017.12,国家科技部863项目,课题骨干

  5. "回音壁模式耦合微腔激光器的光学性能及其用于生物传感的基础研究",国家自然科学基金青年科学基金,2010.1-2012.12,项目负责人

  6. "回音壁模式耦合微腔激光器的光学性能及其在生物传感上的应用研究",上海市自然科学基金,2009.8-2012.7,项目负责人

  7. "单频回音壁模式耦合微腔半导体激光器的光学性能研究",国家集成光电子重点实验室开放课题,2010.1-2011.12,项目负责人

  8. "回音壁模式耦合微腔激光器的光学性能及其在生物传感上的应用研究", 复旦大学青年科学基金,2009.8-2011.7,项目负责人

  9. "新型纳米微结构光电子材料及微腔光子器件特性研究",自然科学基金重点项目,2007.1-2010.12,主要参加者

  10. "新型亚微米高度大纵横比玻璃光波导的传输特性与制备技术研究", 自然科学基金面上项目,2010.1-2012.12,主要参加者

  11. "热光控制多模干涉型多功能集成光波导器件的研制",上海市科学技术委员会博士后基金,2005.10-2007.10,项目负责人

科研成果

期刊论文:

2020年

  1. Liang Fu, Qijing Lu, Xianlin Liu, Xiaogang Chen, Xiang Wu, Shusen Xie, “Combining whispering gallery mode optofluidic microbubble resonator sensor with GR-5 DNAzyme for ultra-sensitive lead ion detection” , Talanta, 213, 120815, 2020.

  2. Xianlin Liu, Qijing Lu, Liang Fu, Xiaogang Chen, Xiang Wu, Shusen Xie, “Coupled-mode induced transparency via Ohmic heating in a single polydimethylsiloxane-coated microbubble resonator.” Optics Express, 28(7), 10705-10713, 2020.

  3. Haotian Wang, Jun Guo, Jianing Zhang, Wei Zhou, Yishan Wang, Xiang Wu, Deyuan Shen, “Sensing Enhancement at an Exceptional Point in a Nonreciprocal Fiber Ring Cavity.” Journal of Lightwave Technology, 38 (8), 2511-2515, 2020.

  4. Xiaogang Chen, Xuyang Zhao, Zhihe Guo, Liang Fu, Qijing Lu, Shusen Xie, and Xiang Wu, “Optofluidic microbubble Fabry–Pérot cavity.” Optics Express, 28(10), 15161-15172, 2020.

  5. Zhou Yi, Zhihe Guo, Wenjie Zhou, Shuai Li, Zhiran Liu, Xuyang Zhao, Xiang Wu, “High-Q guided mode resonance sensors based on shallow sub-wavelength grating structures.” Nanotechnology, 31, 325501, 2020.

  6. Zhihe Guo, Yingchun Qin, Peizong Chen, Jinliang Hu, Yi Zhou, Xuyang Zhao, Zhiran Liu, Yiyan Fei, Xiaoshun Jiang, and Xiang Wu, “Hyperboloid-Drum Microdisk Laser Biosensors for Ultrasensitive Detection of Human IgG.” Small DOI:10.1002/smll.202000239, 2020.

2019年

  1. C Zhang, P Zeng, W Zhou, Y Zhang, X He, Q Jin, D Wang, H Wang, S Zhang*, M Lu*, X Wu*, “Emission characteristics of all-silicon distributed feedback lasers with a wide gain range.” IEEE Journal of Selected Topics in Quantum Electronics, 26 (2), 1-7, 2019.

  2. Z Chen, Z Guo, X Mu, Q Li, X Wu*, HY Fu*, “Packaged microbubble resonator optofluidic flow rate sensor based on Bernoulli Effect.” Optics Express 27 (25), 36932-36940, 2019.

  3. Y Zhou, X Li, S Li, Z Guo, P Zeng, J He, D Wang, R Zhang, M Lu, S Zhang*, X Wu*, “Symmetric guided-mode resonance sensors in aqueous media with ultrahigh figure of merit”, Optics Express 27 (24), 34788-34802, 2019.

  4. Z Guo, H Wang*, C Zhao, L Chen, S Liu, J Hu, Y Zhou, X Wu*, “Spectral Modulation of Optofluidic Coupled-Microdisk Lasers in Aqueous Media”, Nanomaterials 9 (10), 1439, 2019.

  5. JN Zhang, WC Yao, HT Wang*, W Zhou, X Wu, DY Shen, “A Watt-Level Single-Frequency Fiber Laser at 2m Using a Silica Prolate Microresonator”, IEEE Photonics Technology Letters 31 (15), 1241-1244, 2019.

  6. Y Zhou, B Wang, Z Guo, X Wu*, “Guided Mode Resonance Sensors with Optimized Figure of Merit”, Nanomaterials 9 (6), 837, 2019.

  7. Z Guo, Q Lu, C Zhu, B Wang, Y Zhou, X Wu*, “Ultra-sensitive biomolecular detection by external referencing optofluidic microbubble resonators”, Optics Express 27 (9), 12424-12435, 2019.

  8. H Wang, J Zhang, X Wu*, D Shen*, “On-resonance photonic nanojets for nanoparticle trapping”, Optics Express 27 (8), 10472-10481, 2019.

  9. Q Lu, X Chen, L Fu, S Xie*, X Wu*, “On-Chip Real-Time Chemical Sensors Based on Water-Immersion-Objective Pumped Whispering-Gallery-Mode Microdisk Laser”, Nanomaterials 9 (3), 479, 2019.

  10. J Hu, S Liu, X Wu, L Liu, L Xu*, “Orthogonal Demodulation Pound–Drever–Hall Technique for Ultra-Low Detection Limit Pressure Sensing”, Sensors 19 (14), 3223, 2019.

  11. B Wang, Y Zhou, Z Guo, X Wu*, “Design for Distributed Feedback Laser Biosensors Based on the Active Grating Model”, Sensors 19 (11), 2569, 2019.

  12. 2018年

  13. X Chen, L Fu, Q Lu*, X Wu, S Xie, “Packaged droplet microresonator for thermal sensing with high sensitivity”, Sensors 18 (11), 3881,4, 2018.

  14. Q Lu, X Chen, S Xie*, X Wu*, “Controllable and selective single-mode lasing in polymer microbottle resonator”, Optics Express 26 (16), 20183-20191, 2018.

  15. Z Li, C Zhu, Z Guo, B Wang, X Wu*, Y Fei*, “Highly sensitive label-free detection of small molecules with an optofluidic microbubble resonator”, Micromachines 9 (6), 274, 2018.

  16. DC Wang, C Zhang, P Zeng, WJ Zhou, L Ma, HT Wang, ZQ Zhou, F Hu, S Zhang*, M Lu*, X Wu*, “An all-silicon laser based on silicon nanocrystals with high optical gains”, Sci. Bull 63, 75-77, 2018.

2017年

  1. X Chen, Q Lu*, H Yang, X Wu, S Xie, “Modified field confinement and enhanced optical forces in hybrid dielectric wedge tip-loaded plasmonic waveguide”, Journal of Nanophotonics 11 (4), 046015, 2017.

  2. J Gong, Y Wang, S Liu, P Zeng, X Yang, R Liang, Q Ou*, X Wu*, S Zhang*, “All-inorganic perovskite-based distributed feedback resonator”, Optics Express 25 (24), A1154-A1161,7,2017.

  3. Z Chen, X Wu, L Liu, L Xu*, “Optical Spring Effect in Micro-Bubble Resonators and Its Application for the Effective Mass Measurement of Optomechanical Resonant Mode”, Sensors 17 (10), 2256, 2017.

  4. Q Lu, X Chen, H Yang, X Wu*, S Xie*, “Ultrahigh Purcell factor, improved sensitivity, and enhanced optical force in dielectric bowtie whispering-gallery-mode resonators”, IEEE Photonics Journal 9 (5), 1-10, 2017.

  5. X Wang, R Chen, S Hu*, P Zhao, L Wen, X Wu, “Optical microcavity transmission spectrum fitting algorithm based on the implicit function model”, Opto-Electronic Engineering 44 (07), 701-709, 2017.

  6. H Sun, X Chen, H Wang, Q Lu, H Yang, S Xie*, X Wu*, “Fabrication of lasing whispering gallery mode microresonators by controllable injection method”, IEEE Photonics Journal 9 (3), 1-6, 2017.

  7. H Wang, X Fan, Z Li, T Tang, F Wu, D Shen, X Wu*, “Stabilizing and Tuning the Laser Frequencies in Er-Doped Fiber Ring Lasers Based on Microbubble Resonators”, IEEE Photonics Journal 9 (3), 1-9, 2017.

  8. L Ren, X Zhang, X Guo, H Wang, X Wu*, “High-sensitivity optofluidic sensor based on coupled liquid-core laser”, IEEE Photonics Technology Letters 29 (8), 639-642, 8, 2017.

2016年

  1. H Wang, S Liu, L Chen, D Shen, X Wu*, “Dual-wavelength single-frequency laser emission in asymmetric coupled microdisks”, Scientific reports 6, 38053, 9, 2016.

  2. Q Lu, J Liao, S Liu, X Wu, L Liu*, L Xu*, “Precise measurement of micro bubble resonator thickness by internal aerostatic pressure sensing”, Optics Express 24 (18), 20855-20861, (9), 2016.

  3. J Liao, X Wu, L Liu*, L Xu*, “Fano resonance and improved sensing performance in a spectral-simplified optofluidic micro-bubble resonator by introducing selective modal losses”, Optics Express 24 (8), 8574-8580,25, 2016.

  4. Q Lu, S Liu, X Wu, L Liu*, L Xu*, “Stimulated Brillouin laser and frequency comb generation in high-Q microbubble resonators”, Optics Letters 41 (8), 1736-1739   28, 2016.

  5. H Wang, X Wu*, D Shen, “Trapping and manipulating nanoparticles in photonic nanojets”, Optics Letters 41 (7), 1652-1655,14, 2016.

  6. T Tang, X Wu*, L Liu, L Xu, “Packaged optofluidic microbubble resonators for optical sensing”, Applied Optics 55 (2), 395-399, 2016.

2015年

  1. Q Lu, M Li, J Liao, S Liu, X Wu, L Liu*, L Xu*, “Strong coupling of hybrid and plasmonic resonances in liquid core plasmonic micro-bubble cavities”, Optics Letters 40 (24), 5842-5845,11, 2015.

  2. HT Wang, X Wu*, “Optical manipulation in optofluidic microbubble resonators”, SCIENCE CHINA Physics, Mechanics & Astronomy 58 (11), 114206, 4, 2015.

  3. H Wang, X Wu*, D Shen, “Localized optical manipulation in optical ring resonators”, Optics Express 23 (21), 27650-27660,6,2015.

  4. Q Lu, X Wu, L Liu*, L Xu, “Mode-selective lasing in high-Q polymer micro bottle resonators”, Optics Express 23 (17), 22740-22745,19, 2015.

  5. Z Chen, M Li, X Wu, L Liu, L Xu*, “2-D optical/opto-mechanical microfluidic sensing with micro-bubble resonators”, Optics Express 23 (14), 17659-17664,13, 2015.

  6. 2014年

  7. Xiang Wu, Maung Kyaw Khaing Oo, Karthik Reddy, Qiushu Chen, Yuze Sun, Xudong Fan, “Optofluidic laser for dual-mode sensitive biomolecular detection with a large dynamic range”, Nature communications, 5(1), 1-7, 2014.

  8. 2013年

  9. Ming Li, Xiang Wu, Liying Liu, Xudong Fan, Lei Xu, “Self-referencing optofluidic ring resonator sensor for highly sensitive biomolecular detection”, Analytical Chemistry, 85(19), 9328-9332, 2013.

  10. Ming Li, Xiang Wu, Liying Liu, Lei Xu, “Kerr parametric oscillations and frequency comb generation from dispersion compensated silica micro-bubble resonators”, Optics Express 21(14), 16908-16913, 2013.

  11. Xiang Wu, Qiushu Chen, Yuze Sun, Xudong Fan, “Bio-inspired optofluidic lasers with luciferin”, Applied Physics Letters 102(20), 203706, 2013.

2012年

  1. Hao Li, Xin Yu, Xiang Wu, Wei Shi, Mo Chen, Liying Liu, Lei Xu, “All-optically-controlled nanoparticle transporting and manipulating at SOI waveguide intersections”, Optics Express 20(22), 24160-24166, 2012.

  2. Liqiang Ren, Xiang Wu, Ming Li, Xingwang Zhang, Liying Liu, Lei Xu, “Ultrasensitive label-free coupled optofluidic ring laser sensor”, Optics Letters 37(18), 3873-3875, 2012.

2011年

  1. Xingwang Zhang, Liqiang Ren, Xiang Wu, Hao Li, Liying Liu, Lei Xu, “Coupled optofluidic ring laser for ultrahigh-sensitive sensing”, Optics Express 19(22), 22242-22247, 2011.

  2. Jiang Zhu, Xiang Wu, Miao Zhang, Yin Wang, Xi-Jing Ning, You-Yuan Zhao, Ming Lu, “Photoluminescence responses of Si nanocrystal to differing pumping conditions”, Journal of Applied Physics 110(1), 013502, 2011.

  3. Xingwang Zhang, Hao Li, Xin Tu, Xiang Wu, Liying Liu, Lei Xu, “Suppression and hopping of whispering gallery modes in multiple-ring-coupled microcavity lasers”, JOSA B 28(3), 483-488, 2011.

2009年

  1. Xiang Wu, Yuze Sun, Jonathan D Suter, Xudong Fan, “Single mode coupled optofluidic ring resonator dye lasers”, Applied Physics Letters 94(24), 241109, 2009.

  2. Xiang Wu, Hao Li, Liying Liu, Lei Xu, “Unidirectional single-frequency lasing from a ring-spiral coupled microcavity laser”, Applied Physics Letters 93(8), 081105, 2008.

会议论文

2019年

  1. Fan Zhang, Haoze Sun, Peng Jiang, Qingshan She, Huan Xu, Xiang Wu, “Research on Trajectory Prediction Method of Mobile Pollution Source Based on Hybrid Genetic Particle Swarm and optimized Extreme Learning Machine”, Chinese Automation Congress (CAC), 356-361, 2019.

  2. L Fu, X Liu, X Chen, Q Lu*, X Wu, S Xie, “Raman lasing in optofluidic microbubble resonator”, Nanophotonics and Micro/Nano Optics V 11193, 111931I, 2019.

  3. X Liu, L Fu, X Chen, Q Lu*, X Wu, S Xie, “Electronic-induced-transparency-like in a single polydimethysiloxane-coated whispering gallery mode microbubble resonator”, Nanophotonics and Micro/Nano Optics V 11193, 111931C, 2019.

  4. Zhenmin Chen, Zhihe Guo, Xiang Wu, HY Fu, “Optofluidic Flow Rate Sensor based on Packaged Microbubble Resonator”, Asia Communications and Photonics Conference, M4A. 157, 2019.

  5. Haoze Sun, Peng Jiang, Qingshan She, Cheng Yu, Hongze Lin, Xiang Wu, Guang Lin, “Excessive-emission vehicles real-time track matching algorithm based on road network topology and weights”, 2019 Chinese Control Conference (CCC), 6325-6332, 2019.

  6. Z Chen, Z Guo, Q Xie, X Wu, HY Fu*, “Laser wavelength monitoring based on a packaged microbubble resonator”, 17th International Conference on Optical Communications and Networks (ICOCN2018), 11048, 11048l, 2019.

2018年

  1. X Chen, Q Lu*, L Fu, X Wu, S Xie*, “Numerical analysis of optical super-resolution in a structure of quasi-Luneburg-sphere”, Optics in Health Care and Biomedical Optics VIII 10820, 108201C, 2018.

  2. X Chen, L Fu, Q Lu*, H Yang, X Wu, S Xie*, “High sensitivity temperature sensor based on packaged microdroplet whispering gallery mode resonator” Tenth International Conference on Information Optics and Photonics 10964 …, 2018.

2017年

  1. X Chen, Q Lu, X Wu, H Yang, S Xie, “Low-loss nanowire and nanotube plasmonic waveguide with deep subwavelength light confinement and enhanced optical trapping forces”, Journal of Physics: Conference Series 844 (1), 012048, 2017.

  2. X Chen, H Sun, H Yang, X Wu*, S Xie*, “Self-assembled dye-doped polymer microspheres as whispering gallery mode lasers”, Optics in Health Care and Biomedical Optics VII 10024, 100242F, 2016.

获奖

发明专利:

  • 吴翔,徐雷,刘丽英,王文澄,“一种多模干涉热光开关”,中国,2004.10.21,ZL200410067344.0

  • 吴翔,徐雷,刘丽英,李皓,“有机无机复合回音壁模式光学微腔激光器的制备方法”,中国,2008.02.28,ZL200810034030.9

  • 吴翔,徐雷,刘丽英,李皓,“一种双通道输出的螺旋环形微腔激光器”,中国,2008.02.28,ZL200810034031.3

  • 吴翔,徐雷,刘丽英,李皓,“波长可调谐的螺旋环形耦合微腔激光器”,中国,2008.02.28,ZL200810034032.8

  • 李明,吴翔,任立强,徐雷,刘丽英,“一种耦合微腔光子分子的生物化学传感器”,中国,2012.09.27,ZL201210373460.X

  • 吴翔,李明,“基于光微流环形谐振腔的纳米生物光镊”,中国,2013.10.24,ZL201310505909.8

  • 吴翔,汤婷,李子豪,王伯文,孙弘毅,徐雷,刘丽英,“可保留径向高阶模式的封装型光微流微腔生化传感器”,中国,2017.04.03,ZL201710215484.5

  • 吴翔,汤婷,李子豪,王伯文,孙弘毅,徐雷,刘丽英,“可保留径向高阶模式的封装型光微流微腔生化传感器”,国际发明专利申请(PCT),2017.04.03,PCT-CN2017116259

  • 王东辰,张弛,陆明,吴翔,张树宇,“全硅分布式反馈激光器”,中国,2017.08.01,ZL201710647867.X

  • 吴翔,李子豪,王伯文,郭志和,“利用光学微腔生物传感器对化合物进行特异性检测的方法”,中国,2018.02.07,ZL201810120801.X

  • 周一,吴翔,张树宇,费义艳,陈晨,“传感芯片及其制备方法、检测系统、检测方法”,中国,2018.12.29,CN201811639340.3

  • 张驰,张树宇,陆明,吴翔,“单片集成硅光芯片的分布式反馈激光器及其制备方法”,中国,2019.11.07,CN201911083475.0

  • 周一,吴翔,熊青松,陈晨,“传感芯片及其制备方法、检测系统和检测方法”,中国,2020.02.14,CN202010093669.5

实用新型专利:

  • 吴翔,徐雷,刘丽英,王文澄,“一种多模干涉热光开关”,中国,2004.10.21,ZL200420107461.0

  • 吴翔,徐雷,刘丽英,王文澄,“一种多模干涉热可调光衰减器”,中国,2004.12.23,ZL200420114666.1

  • 吴翔,汤婷,李子豪,王伯文,孙弘毅,徐雷,刘丽英,“可保留径向高阶模式的封装型光微流微腔生化传感器”,中国,2017.05.11,ZL201720517772.1

教授课程

  • 《集成光学》

小组成员

在读研究生

  • 博士研究生郭志和、周一、赵旭阳

  • 硕士研究生刘之然

已毕业学生

  • 2013任力强硕士美国华大基因

  • 2017王昊天博士(2017年校优秀毕业生,2017年王大珩光学奖)江苏师范大学任教

  • 2017汤婷硕士(2017年校优秀毕业生)芯原微电子

  • 2018李子豪硕士华盛顿大学圣路易斯分校

  • 2019王伯文硕士上海集成电路研发中心