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  学位论文 Degree Theses

  1. 陈碧雯, “利用等离激元增强拉曼散射技术观察单分子动力学行为,” 硕士论文 (2024).
     
  2. 石天 (Tian Shi), “High-performance Fiber-optic Hydrophone with Surface Plasmon Resonance Cavities,” Master Thesis (2022).
     
  3. 王晓丹 (Xiaodan Wang), “Plasmonic Nanoparticle-Plane Junction: An Ultra-Sensitive and Reproducible Platform for Nanoplasmonics,” PhD Thesis (2021).
     
  4. 陈成 (Cheng Chen), “Optical microscopy via localized surface plasmon resonance modification using gold nanoparticle,” PhD Thesis (2020).
     
  5. 周鑫 (Xin Zhou), “Surface Plasmon Cavities on Optical Fiber End-Facets for Biomolecule and Acoustic Detection,” PhD Thesis (2019).
     
  6. 雷泽雨 (Zeyu Lei), “Plasmonic Distributed Feedback Cavities for Fiber-Based Sensors and Surface-Emitting Lasers,” PhD Thesis (2019).
     
  7. 龙婧 (Jing Long), “Plasmon-enhanced Raman Scattering - Reproducible Ultrahigh Electromagnetic Enhancement and Single-molecule Dynamics Observation,” PhD Thesis (2016).
     
  8. 易会 (Hui Yi), “Plasmonic Nanoantenna Enhanced Optical Scattering and Four-Wave-Mixing,” PhD Thesis (2016).
     
  9. 贺晓龙 (Xiaolong He), “Study of Surface Plasmon Resonance for Fiber Based Label-free Biosensing,” PhD Thesis (2016).
     
  10. 冀秦豫 (Qinyu Ji), “Efficiency of OPV and OLED device enhanced by nano-wrinkled surfaces,” Master Thesis (2016).
     
  11. 李晖 (Hui Li), “Quartz Tuning Fork Based Shear Force Microscope,” Master Thesis (2016).
     
  12. 陈冷 (Leng Chen), “Fabrication and Forming Mechanisms of Wrinkles on Gold-PDMS Bilayer Structures,” Master Thesis (2013).
     
  13. 贺晓龙 (Xiaolong He), “Metallic Nano-Slit Grids on Fiber Facets for Surface Plasmon Resonance Sensing,” Master Thesis (2013).
     

  期刊论文 Journal Papers

  1. 陈瑞泽,石天,孙夏清,杨天*, “一种光纤端面表面等离激元微腔超声传感器的理论分析,” 仪表技术与传感器 (2024). DOI:
     
  2. 陈碧雯, 龙婧, 韩文华, 缪宜琛, 易会, 许文武, 高嶷, 杨天*, “通过等离激元皮米腔分子振动谱观测偶氮苯单分子化学过程,” 激光与光电子学进展 61(13):1324002 (2024). DOI:10.3788/LOP232468
     
  3. Tian Yang, “News and Views: Ultra-compact fiber tapering: plasmonics and structural bending as new combination of heat and pull,” Light: Science and Applications 12, 123 (2023). DOI:10.1038/s41377-023-01203-5
     
  4. Heming Wei, Long Han, Ruixue Yin, Tian Yang, Yunqi Liu, Chengbo Mou, Fufei Pang, Tingyun Wang, “Micro-3D printed concanavalin a hydrogel-based photonic devices for high-sensitive glucose sensing,” Sensors and Actuators B: Chemical 386, 133707 (2023).
     
  5. Heming Wei, Zhangli Wu, Kexuan Sun, Haiyan Zhang, Chen Wang, Kemin Wang, Tian Yang, Fufei Pang, Xiaobei Zhang, Tingyun Wang, Sridhar Krishnaswamy, “Two-photon 3D printed spring-based Fabry-Perot cavity resonators for acoustic wave detection and imaging,” Photonics Research 11, 780-786 (2023).
     
  6. Weifeng Lin, Xinyue Wei, Sihang Liu, Juan Zhang, Tian Yang, Shengfu Chen, “Recent advances in mechanical reinforced zwitterionic hydrogel,” Gels 8, 580 (2022).
     
  7. Xiaqing Sun, Zeyu Lei, Hao Zhong, Chenjia He, Sihang Liu, Qingfeng Meng, Qingwei Liu, Shengfu Chen, Xiangyang Kong, Tian Yang*, “A Quasi-3D Fano Resonance Cavity on Optical Fiber End-Facet for High Signal-to-Noise Ratio Dip-and-Read Surface Plasmon Sensing,” Light: Advanced Manufacturing 3, 46 (2022). DOI: 10.37188/lam.2022.046
     
  8. Sihang Liu, Liangbo Xu, Zhefan Yuan, Mei Huang, Tian Yang, Shengfu Chen, “3D Interlayer Slidable Multilayer Nano-Graphene Oxide Acrylate Crosslinked Tough Hydrogel,” Langmuir 38, 8200-8210 (2022).
     
  9. Dandan Li, Xinyue Wei, Weili Xue, Liangbo Xu, Ziyin Xiang, Sihang Liu, Tian Yang, Shengfu Chen, “Size Effect of Zwitterionic Peptide-Based Nanoscale Micelles on Cancer Therapy,” ACS Appl. Nano Mater. 5, 9344-9355 (2022).
     
  10. Sihang Liu, Jingyi Tang, Fangqin Ji, Weifeng Lin, Shengfu Chen, “Recent Advances in Zwitterionic Hydrogels: Preparation, Property, and Biomedical Application,” Gels 8, 46 (2022).
     
  11. Cheng Chen, Hui Li, Hongquan Li, Tian Yang*, “Scanning Probe Microscopy by Localized Surface Plasmon Resonance at Fiber Taper Tips,” Review of Scientific Instruments 92, 093702 (2021). DOI: 10.1063/5.0059747
     
  12. Tian Yang*, Hui Yi, Xiaodan Wang, Yichen Miao, Cheng Chen, Jing Long, Xiangyang Kong, Lin Wu, “2D-Material-Assisted Bistable Switching of Gap Plasmons Disclosed By Femtosecond Pulse Scattering Spectra,” arXiv:2012.12490 [physics.optics].
     
  13. H. Jiang, H. Zhang, Q. Meng, J. Xie, Y. Li, H. Chen, Y. Zheng, X. Wang, H. Qi, J. Zhang, P.H. Wang, Z.G. Han, S. Tao*, “SARS-CoV-2 Orf9b Suppresses Type I Interferon Responses by Targeting TOM70,” Cellular & Molecular Immunology 17, 998 (2020).
     
  14. Cheng Chen, Hongquan Li, Hui Li, Tian Yang*, “Linear scattering off a dynamically controlled nanosphere-mirror plasmonic antenna on a fiber taper,” Optics Express 28, 7051-7059 (2020). DOI: https://doi.org/10.1364/OE.381773  Editors' Pick
     
  15. Tian Yang*, Shengfu Chen, Xiaolong He, Huaizu Guo, Xiaqing Sun, “How to Convincingly Measure Low Concentration Samples with Optical Label-Free Biosensors,” Sensors and Actuators B: Chemical 306C, 127568 (2020). DOI: 10.1016/j.snb.2019.127568  Perspective article
     
  16. 杨天*, 陈成, 王晓丹, 周鑫, 雷泽雨, “光纤端的等离激元探测技术,” 《激光与光电子学进展》56, 202404 (2019). “等离激元新效应与应用”专题特邀综述 DOI: 10.3788/LOP56.202404
    Yang Tian*, Chen Cheng, Wang Xiaodan, Zhou Xin, Lei Zeyu, “Plasmonic Sensing on FiberTip,” Laser & Optoelectronics Progress 56, 202404 (2019). Invited review article
     
  17. Zeyu Lei, Xi Chen, Xiaodan Wang, L. Jay Guo*, Tian Yang*, “Surface-emitting surface plasmon polariton laser in a second-order distributed feedback defect cavity,” ACS Photonics 6, 612-619 (2019). DOI: 10.1021/acsphotonics.8b01789
     
  18. Xin Zhou, De Cai, Xiaolong He, Sung-Liang Chen, Xueding Wang, Tian Yang*, “Ultrasound detection at fiber end-facets with surface plasmon resonance cavities,” Optics Letters 43, 775-778 (2018). DOI: 10.1364/OL.43.000775
     
  19. Qinyu Ji, Cheng Zhang, Xiangning Qi, Ran Li, Xiao Hu, L. Jay Guo, Tian Yang*, “Enhancing the efficiencies of OPV and OLED devices by regular nano-wrinkle patterns,” Journal of Shanghai Jiao Tong University(Science) - Joint Inst. Special Issue 23, 45-51 (2018). DOI: 10.1007/s12204-018-1908-y SharedIt: http://rdcu.be/G6A6《上海交通大学学报(英文版)》2020年度有影响力论文/Top 40 high-impact research articles in 2020
     
  20. Tian Yang*, Xiaolong He, Xin Zhou, Zeyu Lei, Yalin Wang, Jie Yang, De Cai, Sung-Liang Chen, Xueding Wang, “Surface Plasmon Cavities on Optical Fiber End-Facets for Biomolecule and Acoustic Detection,” Optics and Laser Technology 101, 468-478 (2018). Invited review article DOI: 10.1016/j.optlastec.2017.12.003
     
  21. Zeyu Lei, Xin Zhou, Jie Yang, Xiaolong He, Yalin Wang, Tian Yang*, “Second-order distributed-feedback surface plasmon resonator for single-mode fiber end-facet biosensing,” Applied Physics Letters 110, 171107 (2017). DOI: 10.1063/1.4982625
     
  22. Zeyu Lei, Tian Yang*, “Converting state of polarization with a miniaturized metasurface device,” Photonics Technology Letters 29, 615 (2017). DOI: 10.1109/LPT.2017.2675453
     
  23. Hui Yi, Xiaodan Wang, Xiangyang Kong, Tian Yang*, “Quadruple-enhanced four-wave mixing in nanometer plasmonic hotspots: classical theory and experiments,” arXiv:1704.01868 [physics.optics].
     
  24. Tian Yang*, Jing Long, Xiaodan Wang, “Stepwise Quantum Phonon Pumping in Plasmon‐Enhanced Raman Scattering,” arXiv:1601.03324 [cond-mat.mes-hall].
     
  25. Jing Long, Hui Yi, Hongquan Li, Tian Yang*, “Reproducible Ultrahigh SERS Enhancement in Single Deterministic Hotspots Using Nanosphere-Plane Antennas Under Radially Polarized Excitation,” Scientific Reports 6, 33218; arXiv:1512.03507 [physics.optics] (2016). DOI: 10.1038/srep33218
     
  26. Xiaolong He, Hui Yi, Jing Long, Xin Zhou, Jie Yang, Tian Yang*, “Plasmonic Crystal Cavity on Single-Mode Optical Fiber End Facet for Label-Free Biosensing,” Applied Physics Letters 108, 231105; arXiv:1512.02022 [physics.optics] (2016). DOI: 10.1063/1.4953413
     
  27. Zeyu Lei, Tian Yang*, “Gap plasmon resonator arrays for unidirectional launching and shaping of surface plasmon polaritons,” Applied Physics Letters 108, 161105; arXiv:1512.01376 [physics.optics] (2016). DOI: 10.1063/1.4947431
     
  28. Hui Yi, Jing Long, Hongquan Li, Xiaolong He, Tian Yang*, “Scanning metallic nanosphere microscopy for vectorial profiling of optical focal spots,” Optics Express 23, 8338-8347 (2015). PDF
     
  29. Ran Li, Hui Yi, Xiao Hu, Leng Chen, Guangsha Shi, Weimin Wang, Tian Yang*, “Generation of Diffraction-Free Optical Beams Using Wrinkled Membranes,” Scientific Reports 3, 2775 PDF; a shorter version: arXiv:1304.7874 [physics.optics] (2013).
     
  30. Xiaolong He, Liu Yang and Tian Yang*, “Optical Nanofocusing by Tapering Coupled Photonic-Plasmonic Waveguides,” Optics Express 19, 12865-12872 (2011).PDF
     
  31. Baoan Liu, Dongxing Wang, Chuan Shi, Kenneth B. Crozier and Tian Yang*, “Vertical optical antennas integrated with spiral ring gratings for large local electric field enhancement and directional radiation,” Optics Express 19, 10049-10056 (2011). PDF
     
  32. Dongxing Wang, Tian Yang* and Kenneth B. Crozier, “Optical antennas integrated with concentric ring gratings: electric field enhancement and directional radiation,” Optics Express 19, 2148-2157 (2011); selected for publication in Virtual Journal of Biomedical Optics, vol. 6 (Feb 17, 2011). PDF
     
  33. Tian Yang, Spotlight Summary for “Planar photonic crystal cavities with far-field optimization for high coupling efficiency and quality factor (Optics Express 18, 16064-16073, 2010)”, Spotlight on Optics, Optical Society of America (July 2010).
     
  34. Dongxing Wang, Tian Yang and Kenneth B. Crozier, “Charge and current reservoirs for electric and magnetic field enhancement,” Optics Express 18, 10388-10394 (2010). PDF
     

  会议论文 Conference Proceedings & Abstracts 

  1. Cheng Chen, Hongquan Li, Hui Li, Zeyu Lei, Tian Yang*, “Localized Surface Plasmon Resonance Scanning Microscopy with Optical Antenna on Fiber Taper,” IEEE International Conference on Nanotechnology, Macau (IEEE-NANO 2019).
     
  2. Zeyu Lei, Xi Chen, Xiaodan Wang, L. Jay Guo*, Tian Yang*, “Plasmonic laser using defect cavity in second-order distributed feedback system,” Gordon Research Conference: Lasers in Micro, Nano and Bio Systems, Waterville Valley, New Hampshire, USA (GRC 2018).
     
  3. Tian Yang*, Jing Long, Xiaodan Wang, “Stepwise Quantum Phonon Pumping in Surface-Enhanced Raman Scattering,” OSA Nonlinear Optics Topical Meeting, Waikoloa, Hawaii, USA (NLO 2017).
     
  4. Xiaodan Wang, Hui Yi, Tian Yang*, “Efficient Four-Wave Mixing in Loaded Nanoscale Plasmonic Hotspots,” OSA Nonlinear Optics Topical Meeting, Waikoloa, Hawaii, USA (NLO 2017).
     
  5. Xin Zhou, De Cai, Xiaolong He, Sung-Liang Chen, Xueding Wang, Tian Yang*, “Ultrasound Detection with Surface Plasmon Resonance on Fiber End-facet,” Conference on Lasers and Electro-Optics, San Jose, California, USA (CLEO 2017).
     
  6. Zeyu Lei, Xin Zhou, Xiaolong He, Jie Yang, Tian Yang*, “Plasmonic distributed feedback cavity with a phase shift on single-mode optical fiber end facet for label-free biosensing,” SPIE Photonics West, BiOS, Plasmonics in Biology and Medicine XIV, San Francisco, California, USA (Photonics West 2017).
     
  7. Xiaodan Wang, Jing Long, Xiulong Jin, Jian Ye, Tian Yang, “Sensitive SERS Measurement with a Single Nanoshell-Plane Junction under Radially Polarized Focused Excitation,” Progress In Electromagnetics Research Symposium, Shanghai (PIERS 2016).
     
  8. Jing Long, Tian Yang*, “Observation of Single Molecule Dynamic Behaviors with SERS: Desorption and Conformation Switching,” Conference on Lasers and Electro-Optics, San Jose, California, USA (CLEO 2016).
     
  9. Xiaolong He, Jie Yang, Xin Zhou, Yalin Wang, Tian Yang*, “Plasmonic Crystal Cavity on Optical Fiber End Facet for High Performance Label-Free Biosensing,” Conference on Lasers and Electro-Optics, San Jose, California, USA (CLEO 2016).
     
  10. Tian Yang*, Jing Long, Hui Yi, Hongquan Li, “Phonon Stimulated Scattering and Single Molecule Dynamics in Reproducible Ultrasensitive SERS Hotspots,” International Conference on Nanophotonics, Taipei, Oral-50 (ICNP 2016). Postdeadline
     
  11. Zeyu Lei, Hui Yi, Tian Yang*, “Aperiodic Gap Plasmon Resonators for Unidirectional Launching and Shaping of Surface Plasmon Polaritons,” Frontiers in Optics, San Jose, California, USA (FIO 2015).
     
  12. Zeyu Lei, Hui Yi, Tian Yang*, “Ultra Compact Metasurface Radial/Azimuthal Polarization Converter,” Frontiers in Optics, San Jose, California, USA (FIO 2015).
     
  13. Jing Long, Tian Yang*, “In-Situ and Real-Time Monitoring of Chemical Reactions Enabled by Ultra-Sensitive and Reproducible SERS,” Frontiers in Optics, San Jose, California, USA (FIO 2015).
     
  14. Zeyu Lei, Hui Yi, Tian Yang*, "Aperiodic Gap Plasmon Resonators for Unidirectional Launching and Shaping of Surface Plasmon Polaritons," International Conference on Nanophotonics, Changchun, MMP4-02 (ICNP 2015). 
     
  15. Jing Long, Tian Yang*, "In-Situ Plasmon-Induced Chemical Reactions Revealed by Ultra-Sensitive Surface-Enhanced Raman Scattering," International Conference on Nanophotonics, Changchun, SANC-01 (ICNP 2015). 
     
  16. Xiaolong He, Hui Yi, Jing Long, Tian Yang*, “Surface Plasmon Resonance Sensors on the End Facets of Bare Single-mode Optical Fibers,” Asia Communications and Photonics Conference, Shanghai, AF4A.9 (ACP 2014). Postdeadline 
     
  17. Jing Long, Hui Yi, Hongquan Li, Xiaolong He, Tian Yang*, “1010 Electromagnetic SERS enhancement in a nanosphere-plane junction under radially polarized focused excitation,” Conference on Lasers and Electro-Optics, San Jose, California, USA, FM4K.4 (CLEO 2014).
     
  18. Hui Yi, Jing Long, Hongquan Li, Xiaolong He, Tian Yang*, “Sub-Wavelength Full-Vectorial Profiling of Optical Focus,” Frontiers in Optics, Orlando, Florida, USA, FW4F.3 (FIO 2013).
     
  19. Tian Yang*, Ran Li, Hui Yi, Xiao Hu, Leng Chen, Guangsha Shi, Weimin Wang, “Thin Film Lenses with Microscale Wrinkles,” Frontiers in Optics, Orlando, Florida, USA, FTu5F.3 (FIO 2013).
     
  20. Xiaolong He, Jing Long, Hui Yi, Leng Chen, Yihe Tang, Tian Yang*, “Transferring Planar Surface Plasmon Resonance Structures onto Fiber End Facets and Integration with Microfluidics,” Frontiers in Optics, Orlando, Florida, USA, FTu1B.1 (FIO 2013).
     
  21. 贺晓龙, 南京大学2013年“微纳光子学与应用”全国博士生学术论坛.
     
  22. 易会, 南京大学2013年“微纳光子学与应用”全国博士生学术论坛.
     
  23. Xiaolong He, Liu Yang and Tian Yang*, International Conference on Nanophotonics, Beijing (ICNP 2012).
     
  24. Xiaolong He, Jing Long, Hui Yi and Tian Yang*, International Conference on Nanophotonics, Beijing (ICNP 2012).
     
  25. Tian Yang*, Baoan Liu, Jing Long and Chuan Shi, International Conference on Nanophotonics, Beijing (ICNP 2012).
     
  26. Leng Chen, Ran Li, Hui Yi and Tian Yang*, International Conference on Nanophotonics, Beijing (ICNP 2012). Best Student Poster Award 
     
  27. Tian Yang, Baoan Liu and Chuan Shi, “Surface Enhanced Raman Scattering in Vertical Nano Optical Antennas Integrated with Spiral Ring Gratings,” Frontiers in Optics, San Jose, California, USA, FThV3 (FIO 2011). 
     
  28. Tian Yang*, Xiaolong He and Liu Yang, “Planar Coupling and Nanofocusing with Metallic Strip Tapers,” IEEE Photonics Conference, Arlington, Virginia, USA, WJ4 (IPC 2011). 
     
  29. Tian Yang*, Dongxing Wang, Baoan Liu, Chuan Shi, Liu Yang and Kenneth B. Crozier, “Plasmonic Nano Resonators Integrated on Ring Gratings for Surface Enhanced Raman Scattering,” international Nano Optoelectronics Workshop, Beijing (iNOW 2010).
     
  30. Jonathan Varsanik, William Teynor, John LeBlanc, Heather Clark, Jeffrey Krogmeier, Tian Yang, Kenneth Crozier and Jonathan Bernstein, “Sub-Wavelength Plasmonic Readout for Direct Linear Analysis of Optically Tagged DNA,” Proc. SPIE 7577, 75770Q (2010); Biomedical Optics (BIOS), SPIE Photonics West, San Francisco, California, USA, 7577-26 (Photonics West 2010).
     
  31. Paul Steinvurzel, Tian Yang and Kenneth B. Crozier, “Experimental characterization of dispersion in plasmonic nanostripes for integrated DNA sensing,” Proc. SPIE 7604, 760417 (2010); Integrated Optoelectronic Devices (OPTO), SPIE Photonics West, San Francisco, California, USA, 7604-42 (Photonics West 2010).
     

  国内外特邀报告 Conference Invited Talks

  1. “3D Plasmonic Structures on Fibre-Tips for High Performance Sensing,” International Conference on Materials Science, Engineering & Technology, Singapore (ICMET 2023).
     
  2. “Flat and nanostructured plasmonic interfaces on fiber-tips for high performance sensing,” International Conference on Information Optics and Photonics, Xi'an (CIOP 2023).
     
  3. “Plasmonic Sensors on Fiber Tips,” International Symposium on Advanced Optical Manufacturing and Testing Technologies, Chengdu (AOMATT 2021).
     
  4. “Bistable plasmonic antennas embedded with monolayer 2D materials,” Proc. SPIE 11557, Plasmonics V, 115570O (10 October 2020); doi.org/10.1117/12.2575314 (Photonics Asia 2020).
     
  5. “Plasmonic Sensing on Fiber Tip,” Progress In Electromagnetics Research Symposium, Xiamen, SC3: Biophotonics (PIERS 2019).
     
  6. “Fiber end-facet plasmonic cavities for miniaturization of biosensors and hydrophones,” International Multidisciplinary Conference on Optofluidics, Hong Kong (IMCO 2019).
     
  7. “光纤端等离激元微腔: 生物传感和水声探测的微型化," 上海市浦江人才学术交流, 上海 (2018).
     
  8. “基于表面等离激元微腔的光纤端水听器," 第二届全国海洋光学技术发展高峰论坛, 西安 (2018).
     
  9. "Surface Plasmon Cavities on Optical Fiber End-Facets for Biomolecule and Ultrasound Detection," Advanced Optical Manufacturing and Testing Technologies: Conference 4: Micro/Nano Optics, Subwavelength Electromagnetics and Manufacturing, Chengdu (AOMATT 2018).
     
  10. "Plasmonics Lab on Single-Mode Optical Fiber End-Facet," International Symposium on Plasmonics and Nonophotonics, Hangzhou (iSPN 2018).
     
  11. "Strong Light-Matter Interactions in SERS Hotspots: Single Molecule Chemical Event Detection and Nonlinear Behaviors," International Workshop on Applications of Raman Spectroscopy to Biology, SJTU School of Biomedical Engineering & WITec China, Shanghai (2017).
     
  12. "Surface plasmon resonance on optical communication fiber end-facets: a new paradigm for biomolecule interaction analysis," Asia-Pacific International Symposium on Microscale Separations and Analysis, Shanghai (APCE 2017).
     
  13. "SPR Cavities on Optical Fiber End-facets and Applications in Biomolecule and Ultrasound Sensing," Progress In Electromagnetics Research Symposium, Singapore, SC3: Label-free optical Nanobiosensors for Bio-diagnostics, Environmental Monitoring and Food Safety (PIERS 2017).
     
  14. "Strong Light-matter Interactions in Plasmonic Hotspots: Single Molecule Chemical Event SERS Detection, Stimulated Emission of Phonons and High Efficiency Four-wave Mixing," Progress In Electromagnetics Research Symposium, Singapore, Hybrid Plasmonics and Nanophotonics: Novel Functionalities and Device Applications (PIERS 2017).    
     
  15. "SPR Cavities on Optical Fiber End-Facets and Applications in Biomolecule and Ultrasound Sensing," 微纳光学技术与应用交流会 Conference on Micro/nano Optical Technology and Application, Suzhou (2017).
     
  16. Karlsruhe Institute of Technology, Karlsruhe, Germany (2017). 
     
  17. "SPR Cavities on Optical Fiber End-Facets and Applications in Biomolecule and Ultrasound Sensing," International Symposium on Plasmonics and Nonophotonics, Dalian (iSPN 2017).
     
  18. "Nano-plasmonic sensing: single molecule and single chemical event detection, quantum phonon pumping, and fiber end facet integration," University of Southern California, Los Angeles, California, USA (2016). 
     
  19. "Nano-plasmonic sensing devices and fiber integration," International Conference on Optical Instrument and Technology (OIT), Beijing, OIT200-58 (2015).
     
  20. "Reproducible Ultrahigh SERS Enhancement in Gold Nanoparticle-Plane Junctions Under Radially Polarized Excitation," Progress In Electromagnetics Research Symposium (PIERS), Guangzhou, SC2&3: Nano-focusing and Applications (2014).
     
  21. "Nanoplasmonic Devices for Detection of Biological&Chemical Molecules," UM-SJTU Research Symposium on Nanotechnology for applications in energy and medicine, Ann Arbor, Michigan, USA (2013). 
     
  22. “Optical Diffraction Elements Made of Microscale Wrinkles,” BIT's Annual World Congress of Nano Sciences & Technologies, Qingdao (2012). 
     
  23. “Optical nanofocusing and enhanced Raman scattering in vertical optical antennas,” 中国国际纳米科技研讨会 International Conference on NanoScience and Technology, 大会报告 Plenary Talk, Kunming (2012). 
     
  24. “Optical nanofocusing and enhanced Raman scattering in vertical optical antennas,” Japan Society of Applied Physics - Optical Society of America Joint Symposium, JSAP Fall Meeting, Matsuyama City, Ehime, Japan (2012). 
     
  25. “Composite Microfluidic Nanophotonic Sensors,” SJTU-UM Bilateral Symposium on Biomedical Engineering, Shanghai, China, Session 4: Micro/Nano Bio-technology (2011). 
     
  26. “Nano optical focusing with plasmonic devices: bridging the dimension gap,” Symposium on Nanophotonics and Renewable Energy, Chinese Academy of Sciences, Beijing (2011). 
     
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