教授、博导
西北农林科技大学机械与电子工程学院
陕西省杨凌示范区西农路22号
邮编:712100
Email:lijin2023@nwafu.edu.cn
个人简介:
李晋,山西运城人,陕西省“三秦英才”引进计划青年人才,西北农林科技大学高层次人才;兼任中国光学学会激光光谱学专委会、中国自动化学会智能传感器与检测技术专委会委员。IEEE光子学会、IEEE传感器学会、美国光学学会、中国光学学会、中国电子学会、中国自动化学会会员。SCI检索期刊Frontiers in Physics副主编;Frontiers in Materials、Frontiers in Sensors、Agriculture编委,国产高质量期刊Chip、稀有金属青年编委;同时担任ACS Sensors、Nanoscale、Sensors and Actuators A/B、Journal of Lightwave Technology、Optics Letters、Optics Express、IEEE Transactions on Instrumentation and Measurement、IEEE Sensors Journal、Plasmonics、Analyst等国际学术期刊审稿专家。发表一作/通信SCI检索论文80余篇,授权发明专利17项,登记软件著作权2项,出版学术专著4部。
一.教育背景
2009.09 -- 2013.12,哈尔滨工业大学、航天学院物理电子学专业,博士
2007.09 -- 2009.07,哈尔滨工业大学、深圳研究生院物理电子学专业,硕士
2003.09 -- 2007.07,哈尔滨工业大学、航天学院电子科学与技术专业,本科
二.工作经历
2023.03-至今西北农林科技大学、机械与电子工程学院,教授
2014.01‒2023.02 东北大学、信息科学与工程学院,讲师、副教授、特聘研究员
(2016.12--2017.12 澳大利亚国立大学、激光物理研究中心,访问学者)
三.研究方向
主要从事先进光纤传感器、柔性传感器、智能光电检测与光学无损检测技术,开展其在智能农机装备、智慧农业过程控制领域的基础及应用研究工作,致力于推进农业智能传感器模块开发、集成化装备及产业化进程,主持国家重点研发计划子课题、国家自然科学基金、辽宁省自然科学基金材料联合基金等省部级以上项目10余项;近年来,作为技术骨干成员参与了国家杰出青年基金、国家科技支撑计划、863、教育部、总装备部等重点和重大项目的研究。
研究生招生方向:
学术型博士:农业机械化工程(082801)01现代农业装备与技术
专业型博士:农业(095100)01智慧农业技术
学术型硕士:机械工程(080200)
专业型硕士:控制工程(085406)
四.开设课程
《智能光电感知技术》、《智能控制基础》、《智能制造技术》、《图像处理与机器视觉》、
《专业英语》等
五.出版学术专著
[4] 李晋, 孟凡利, 苑振宇. 微纳光纤制备与传感技术应用, 科学出版社, 2024.10. ISBN 978-7-03-077315-9.
[3] B.D. Gupta, A.K. Sharma, Jin Li. Plasmonics based Optical Sensors and Detectors, Stanford Publishing, 2023.04, ISBN 978-981-4968-85-0.
[2] Jin Li, Micro/nanofiber Sensors and Optical Integration Devices, MDPI, 2022. ISBN 978-3-0365-5630-7.
[1] 李晋, 银纳米结构及银粒子掺杂微纳米光纤的光学特性, 金琅学术出版社, 2015. ISBN 978-3-639-81832-1.
六.授权国家发明专利
[17] 李晋,张凯,孟凡利,一种基于空芯光纤微腔的自参考气体吸收光谱检测装置及方法,专利号:ZL202210939996.7,授权时间:2024.05.13
[16] 李晋,范嘉璇,刘宇浩,张华,一种微纳光纤阵列应力定位分析系统,专利号:ZL202110467002.1,授权时间:2022.08.02.
[15] 李晋,李文昱,杨树鑫,张华,一种用于矢量应力监测的微光纤偏振耦合器,专利号:ZL202110465903.7,授权时间:2022.02.18.
[14] 李晋,李鑫,王清晨,余乐,一种基于微纳多芯特种光纤的矢量应力计,专利号:ZL202010317735.2,授权时间:2021.10.15;
[13] 李晋,王浩儒,李智,苏政澄,朱越,一种用于分辨癌变细胞的全光纤pH值监测装置,专利号:ZL202010318629.6,授权时间:2021.1.22;
[12] 李晋,杨俊彤,张华,一种用于热流体流量非接触式检测的方法和装置,专利号:ZL201910985301.7,授权时间:2021.3.26;
[11] 李晋,杨俊彤,张华,麻金娜,一种基于应力差分析非接触式流量的检测装置及方法,专利号:ZL201910984755.2,授权时间:2021.2.5;
[10] 李晋,张越,任春桥,一种基于微光纤锥球面反射型的干涉仪,专利号:ZL201910073398.4,授权时间:2020.09.15;
[9] 李晋,任春桥,张越,一种基于微光纤复合结构的加速度检测装置及方法,专利号:ZL201910072840.1,授权通知日:2021.03.03;
[8] 李晋,李周兵,隋政麒,一种基于空腔填充型微结构光纤干涉仪的高精度温度探头,专利号:ZL201910072880.6,授权时间:2020.05.08;
[7] 李晋,隋政麒,李周兵,一种基于三角微腔双路F-P干涉补偿的气体传感探头,专利号:ZL201910072881.0,授权时间:2020.03.24;
[6] 李晋,董书琳,胡海峰,一种介质硅光子晶体光纤及其制作方法,专利号:ZL201710348304.0,授权时间:2019.07.30;
[5] 李晋,范蕊,胡海峰,一种硅纳米粒子微结构涂层光纤及其制作方法,专利号:ZL2017103473744,授权时间:2019.06.10;
[4] 李晋,范蕊,胡海峰,一种介质硅纳米粒子自沉积涂层光纤及其制作方法,专利号:ZL201710351788.4,授权时间:2019.06.10;
[3] 李晋,盖丽婷,吕日清,一种用于磁性纳米粒子自组装光子晶体光纤的装置,专利号:ZL201710236262.1,授权时间:2019.06.10;
[2] 李晋,吴迪,吕日清,一种用空心光纤锥光镊分类和收集大气PM2.5粒子的装置,专利号:ZL201510193962.8,授权时间:2017.11.03;
[1] 李晋,张亚男,陈飞,一种检测葡萄糖浓度的微型石英空心管复合光纤结构,专利号:ZL201510194633.5,授权时间:2017.12.04;
七.期刊论文
2025年:
[84] Qian Zhang, Yuanman Yue, Xue Li, Chi Zhang, Yuhang Guo, Zi Wang, Jin Li*. Advances in analytical techniques for bioactive compound quantification in medicinal plants: Innovations, challenges, and pharmaceutical applications[J]. Microchemical Journal, 2025, Accepted.
[83] Gaoliang Chen, Jin Li*, Fangling Zhou, Renze Zhang, Hongmin Zhu, Fanli Meng. General strategies for multi-parameter fusion detection in developing sensors: Potential method towards interference and selectivity[J]. Materials & Design, 2025, 254, 114143.
[82] Yannan Wang, Jin Li*, Zhenyu Yuan, Fanli Meng. Optical fiber triethylamine room temperature gas sensor based on HMS platform with DFT calculation and experimental demonstration [J].Applied Surface Science, 2025, 705: 163495.
[81] YannanWang, Jin Li*, Fanli Meng. A temperature and pressure simultaneous measurement sensor based on silicone oil encapsulated hollow core photonic crystal fiber cascading with silica membrane[J]. IEEE Transactions on Instrumentation and Measurement, 2025, 74: 9515808.
[80] YannanWang, Jin Li*, Qian Zhang, Xihao Gao, ZhenyuYuan, Fanli Meng, Ultraviolet-sensitized room temperature fiber optic evanescent field ammonia sensor with polyacrylamide/metal organic framework-carbon quantum dots (–COOH) gas-sensitive film[J]. Journal of Colloid and Interface Science, 2025, 692: 137513.
[79] YannanWang, Jin Li*, Zhenyu Yuan, and Fanli Meng. Performance demonstration experiment and DFT mechanism for an optical fiber toluene gas sensor based on CQDs@ SiO2(-OH) porous film[J].Chemical Engineering Journal, 2025, 512: 162153.
[78] Yuanman Yue, Qian Zhang, Boyang Dong, Jin Li*. Application of discrete element method to potato harvesting machinery: A review[J]. Agriculture, 2025, 15(3): 315.
[77] Yannan Wang, Zhiqiang Yang, Zhenyu Yuan,Jin Li*,Fanli Meng. Temperature insensitive acoustic probe based on optical fiber in-line silica microbubble with ultrathin wall[J]. Sensors and Actuators A: Physical, 2025, 382: 116163.
[76]Yannan Wang, Liyun Qin, Zhenyu Yuan, Jin Li*,Fanli Meng. Development of a novel humidity sensor for breath pattern recognition using large dislocation hollow core fiber infused with nano-carbon quantum water gel microfiber[J]. Sensors and Actuators B: Chemical, 2025, 422: 136644.
2024年:
[75]Que Yufei, Jin Li*. Region-selective corrosion for the fabrication of tilted microfiber Bragg gratings: A candidate for the monitoring of buildings’ health[J]. Applied Sciences, 2024, 14(11): 4707.
[74] Yannan Wang, Jingfeng Li, Zhiqiang Yang, Zhenyu Yuan, Jin Li*, Fanli Meng. HMS optical fiber gas sensor based on double-layer WO3@CQDs porous film modified cladding for detecting 2-butanone gas at room temperature[J]. Chemical Engineering Journal, 2024,500: 157453.
[73] Yannan Wang, Zhiqiang Yang, Liyun Qin, Zhenyu Yuan,Jin Li*, Fanli Meng. Optical fiber HMS ammonia sensor with cellular-like N-CQDs/MgxZn1-xO at room temperature[J]. ACS Sensors, 2024,9(11): 5985–5998.
[72] Ruixin Li, Jin Li, Xianbo Lu*, Fanli Meng, Jiping Chen. Ultrasensitive electrochemical biosensor for rapid screening ofchemicals with estrogenic effect[J]. Biosensors, 2024, 14(9): 436.
[71] Xue Li, Qian Zhang, Jin Li*. Sensing performance comparison for temperature and liquid level Sensor based on uniform and step-etched microfiber TFBG[J]. Infrared Physics and Technology, 2024, 142: 105554.
[70] Qian Zhang, Jin Li*. Performance demonstration of ammonia sensor based on cascaded-splice PCF[J]. IEEE Sensors Journal, 2024, 24(20): 32265-32271.
[69] Yannan Wang,Liyun Qin, Zhenyu Yuan,Jin Li*, Fanli Meng. UV photosensitized N-CQDs@In2O3 ordered porous film elaborated optical fiber acetone gas sensor with ppb-level at room temperature[J]. Sensors and Actuators B: Chemical, 2024, 418: 136283.
[68] Chi Zhang, Jin Li*. Optimization design and evaluation of composited fiber optic sensors for monitoring ammonia gas with relative error calibration unit[J]. Sensors and Actuators A: Physical, 2024,375: 115554.
[67] Yannan Wang, Zhijia Liao, Jin Li*, Fanli Meng. ZnOHF-ZnO nanomaterial-coated macro-bend fiber triethylamine gas sensor working at room temperature[J]. Sensors and Actuators B: Chemical, 2024, 411: 135733.
[66] Gaoliang Chen, Jin Li*, Hongmin Zhu, Yuying Wang, Hanyang Ji, Fanli Meng. Optical fibergas sensor with multi-parameter sensing and environmental anti-interference performance[J]. Journalof Industrial Information Integration, 2024, 38: 100565
[65] Chunfei Duan, Jin Li*, Fanli Meng. Optical Fiber Dual-Parameter Sensors Based on Different Kinds of Interferometers for Measuring Refractive Index and Temperature: A review[J]. Optical and Quantum Electronics, 2024, 56: 262.
2023年:
[64] Yan-Nan Wang, Jin Li*, Fanli Meng. Design and performance of fiber vibration sensor based on Fabry-Perot structures with microbubble[J]. IEEE Sensors Journal, 23(15): 16930, 2023.
[63] Fuhua Liu, Hongtao Dang, Ruixin Tian, Jin Li*, Juan Wang and Dewen Wang. Sensing Performance of Ethanol Microfiber Probe Augmented by ZnO Nanosheet and UV Glue Film[J]. Photonics 2023, 10(6):656.
[62] Yiran Sun, Yannan Wang, Jin Li*, Fanli Meng. Load and vibration optical fiber sensor based on miniature Fabry-Perot cavity encapsulated by micrometer thickness of silica film[J]. IEEE Sensors Journal, 2023, 23(12): 12930-12935.
[61] Yuying Wang, Jin Li*, Li-Na Guo, Mingjun Tian, Fanli Meng. Development of fabrication technique and sensing performance of optical fiber humidity sensors in the most recent decade[J]. Measurement, 2023, 215: 112888.
[60] Hongtao Dang, Zhiwei Yu, Jianye Yang, Jin Li*. Sensing performance comparison for two kinds of reflected fiber ethanol probes with flatted end and microfiber taper[J]. Optical Fiber Technology, 2023, 77: 103281.
[59] Hongtao Dang, Jianfeng Wang, Dewen Wang and Jin Li*. Refractive index sensing performance demonstration of reflective microfiber long taper elaborated by silver and silicon nanoparticles using seawater samples[J].Physica Scripta, 2023, 98(2), 025507.
[58] Mingjun Tian,Jin Li* and Fanli Meng. Independent measurement of refractive index and temperature using D-gapped dual-channel structure in a photonic crystal fiber[J]. Optical and Quantum Electronics, 2023, 55(4): 301.
[57] Fuhua Liu, Yu Wang, Hongtao Dang, Jin Li*, Refractive index sensing properties of microfiber cascaded-long-tapers[J]. Microwave and Optical Technology Letters, 2023, 65(5): 1186-1191.
[56] Jiaxuan Fan, Wenyu Li, Yuhao Liu, Shuxin Yang, Jin Li*, Fiber strain sensor based on compact in-line air cavity fabricated by conventional single mode fiber[J]. Microwave and Optical Technology Letters, 2023, 65(5): 1093-1098.
2022年:
[55] Li-Na Guo, Jin Li*, Fanli Meng, Refractive index sensing performance of stepped-mTFBG fabricated by flexibly-regulating wet etching process[J]. Sensors and Actuators A: Physical, 2022, 346: 113875.
[54] Hongtao Dang, Yan Zhang, YukunQiao, Jin Li*. Refractive Index and Temperature Sensing Performance of Microfiber Modified by UV Glue Distributed Nanoparticles[J]. Polymers, 2022, 14(12): 2425.
[53]Jin Li*, Gaoliang Chen, Fanli Meng, A fiber-optic formic acid gas sensor based on molybdenum disulfide nanosheets and chitosan works at room temperature[J]. Optics & Laser Technology, 150, 107975, 2022.
[52] Gaoliang Chen, Jin Li*, Fanli Meng, Formic acid gas sensor based on coreless optical fiber coated by molybdenum disulfide nanosheet[J]. Journal of Alloys and Compounds, 896, 163063, 2022.
[51] Haiquan Liu, Chengbao Yao, Jin Li*, Wenjun Sun, Caihong Jiang. Modulating the electron transfer and resistivity of Ag plasma implanted and assisted MoS2 nanosheets[J]. Applied Surface Science, 571, 151176, 2022.
[50] Jin Li*. Micro-/nano-fiber sensors and optical integration devices[J]. Sensors, 2022, 22, 7673.
[49] Jiangtao Cui, Gaoliang Chen, Jin Li*, PMMA‑coated SMF–CLF–SMF‑cascaded fiber structure and its humidity sensing characteristics[J]. Applied Physics B, 128, 36, 2022.
[48] Jie Meng, Jinna Ma,Jin Li*, Hao Yan, Fanli Meng, Humidity sensing and temperature response performance of polymer gel cold-spliced optical fiber Fabry-Perot interferometer[J]. Optical Fiber Technology, 68, 102823, 2022.
[47] Shuang Zhang, Tianyao Qi, Jin Li*, Fanli Meng, Design and sensing characteristics of ethanol fiber probe elaborated by ZnO nanosheets[J]. Journal of Physics and Chemistry of Solids, 2022, 162: 110495.
[46] Zhiwu Guo, Yannan Wang, Jin Li*, Compact strain fiber sensor based on Fabry-Perot microstructural air cavity[J]. Instrumentation Science & Technology, 2022, 50(4): 385-396.
2021年:
[45] Jin Li*, Yan-nan Wang, Juntong Yang. Compact Fabry-Perot microfiber interferometer temperature probe with closed end face[J]. Measurement, 178, 109391, 2021.
[44] Jin Li*, Hao Yan, Hongtao Dang, Fanli Meng. Structure design and application of hollow core microstructured optical fiber gas sensor: A review[J]. Optics & Laser Technology, 135, 106658, 2021. (ESI高被引)
[43] 李晋*,闫浩,孟杰. 光子晶体光纤气体吸收光谱探测技术研究进展[J].光学精密工程, 29(10), 2316-2329, 2021.
[42] Jin Li*, Duk-Yong Choi, Mateusz Jakub Smietana[J]. Novel Smart Materials for Optical Fiber Sensor Development. Frontiers in Materials, 8, 671086, 2021.
[41] Mingshu Chen, Hongtao Dang, Jie Zhang, Yang Wang, Jin Li*. Mach-Zehnder interferometer refractive index sensing probe based on dual microfiber coupler[J].Optik, 2021, 228: 166181.
2012-2020年:
[40] Hongtao Dang, Mingshu Chen, Jin Li*, Wei Liu. Sensing performance improvement of resonating sensors based on knotting micro/nanofibers: A review[J]. Measurement, 170, 108706, 2020.
[39] Jin Li*, Zhoubing Li, Juntong Yang, Yue Zhang, Chunqiao Ren. Microfiber Fabry-Perot interferometer used as a temperature sensor and an optical modulator[J].Optics and Laser Technology, 129, 106296, 2020.
[38] Jin Li*, Zhoubing Li, Juntong Yang, Yue Zhang, Chunqiao Ren. High sensitivity temperature probe based on elliptical microfiber knot ring[J]. Results in Physics, 16, 102953, 2020.
[37] Jin Li*, Haoru Wang, Zhi Li, ZhengchengSu, Yue Zhu. Preparation and application of metal nanoparticals elaborated fiber sensors[J]. Sensors, 20, 5155, 2020.
[36] Hongtao Dang, Mingshu Chen, Jin Li*. A highly-sensitive temperature-sensor based on a microfiber knot-resonator packaged in polydimethylsiloxane[J]. IEEE Photonics Journal, 13(1), 7100208, 2020.
[35] Lu Cai, Jin Li*. PDMS packaged MKR used for sensing longitudinal load change. Journal of Physics and Chemistry of Solids, 138, 109268, 2020.
[34] Yi Cai, Ming Li, Minghao Wang,Jin Li*, Yanan Zhang, Yong Zhao, Optical fiber sensors for metal ions detection based on novel fluorescent materials[J]. Frontiers in Physics, 8, 552, 2020.
[33] Juntong Yang, Rui Fan, Jin Li*, Fanli Meng, Hydrogen leakage detectors based on a polymer microfiber decorated with Pd nanoparticles[J]. IEEE Sensors J., 19(16): 6736-6741, 2019.
[32] Ning Gao, Zhuangzhuang Mu, Jin Li*. Palladium nanoparticles doped polymer microfiber functioned as a hydrogen probe[J]. International Journal of Hydrogen Energy, 44(26):14085-14091, 2019.
[31] Zhoubing Li, Yue Zhang, Chunqiao Ren, Zhengqi Sui, Jin Li*. A high sensitivity temperature sensing probe based on microfiber Fabry-Perot interference[J]. Sensors, 19(8), 1819, 2019.
[30] Rui Fan, Juntong Yang, Jin Li*, Fanli Meng*. Temperature measurement using a microfiber knot ring encapsulated in PDMS[J].Physica Scripta, 94(12), 125706, 2019.
[29] Rui Fan, Zhuangzhuang Mu, Jin Li*. Miniature temperature sensor based on polymer-packaged silica microfiber resonator[J]. Journal of Physics and Chemistry of Solids, 129: 307-311, 2019.
[28] Jin Li*, Juntong Yang, Jinna Ma. Highly sensitive temperature sensing performance of a microfiber Fabry-Perot interferometer with sealed micro-spherical reflector[J]. Micromachines, 10, 773, 2019.
[27] Jin Li*, Juntong Yang, Jinna Ma. Load sensing of a microfiber knot ring (MKR) encapsulated in polydimethylsiloxane (PDMS)[J]. Instrumentation Science & Technology, 47(5):511-521, 2019.
[26] Hongtao Dang, Jin Li*, Duqiang Xin, Wei Liu. Miniature temperature sensor based on encapsulated silica microfibre–microsphere structure[J].Micro&Nano Letters 13(12):1739-1742, 2018.
[25] Jin Li*, Rui Fan, Haifeng Hu, Chengbao Yao. Hydrogen sensing performance of silica microfiber elaborated with Pd nanoparticles[J]. Materials Letters 212: 211-213, 2018. (ESI高被引)
[24] Jin Li*, Fei Chen, Hanyang Li, Haifeng Hu and Yong Zhao. Investigation on high sensitivity RI sensor based on PMF[J]. Sensors and Actuators B: Chemical, 242: 1021-1026, 2017.
[23] Jin Li*, Hanyang Li, Haifeng Hu, Chengbao Yao, Refractive index sensor based on silica microfiber doped with Ag microparticles[J]. Optics & Laser Technology, 94: 40-44, 2017.
[22] Jin Li*, Qin Nie, Liting Gai, Hanyang Li, Haifeng Hu, Highly Sensitive temperature sensing probe based on deviation S-shaped microfiber[J]. Journal of Lightwave Technology, 35(17): 3706-3711, 2017.
[21] Liting Gai, Jin Li*, Yong Zhao, Preparation and application of microfiber resonant ring sensors: A review[J]. Optics & Laser Technology, 89: 126-136, 2017.
[20] Jin Li, Jietao Liu, Haifeng Hu*, Yong Zhao, Feng Xia. Tunable orbital angular momentum mode conversion in asymmetric long period fiber gratings[J]. IEEE Photonics Technology Letters 29(23): 2103-2106, 2017.
[19] RiqingLv, Jin Li*, Haifeng Hu, Chengbao Yao, Miniature refractive index fiber sensor based on silica micro-tube and Au microsphere[J]. Optical Materials, 72: 661-665, 2017.
[18] Jin Li*, Liting Gai, Hanyang Li, Haifeng Hu, A high sensitivity temperature sensor based on packaged microfiber knot resonator[J]. Sensors and Actuators A: Physical, 263: 369-372, 2017. 35-33
[17] Jin Li*, Haifeng Hu, Hanyang Li, Chengbao Yao, Recent developments in electrochemical sensors based on nanomaterials for determining glucose and its byproduct H2O2[J]. Journal of Materials Science, 52(17): 10455-10469, 2017.
[16] Haifeng Hu, Jin Li*, Hanyang Li, RiqingLv, Research on the glucose-sensing characteristics of gold microparticle-doped silica microfiber based on refractive index measurement[J]. Applied Physics B, 122(11): 282. 2016.
[15] Jin Li*, Changxun Liu, Haifeng Hu, Qi Wang and Yong Zhao. Ag micro-spheres doped silica fiber used as a miniature refractive index sensor[J]. Sensors and Actuators B: Chemical, 223: 241-245, 2016.
[14] Hanyang Li, Jin Li*, LiangshengQiang and Yundong Zhang. Whispering gallery modes of dye-doped polymer microspheres in microtube[J]. Optics Communications 354: 66-70, 2015.
[13] Jin Li*, Hanyang Li, Haifeng Hu, Yong Zhao and Qi Wang. Preparation and application of polymer nano-fiber doped with nano-particles[J]. Optical Materials 40: 49-56, 2015.
[12]Jin Li*, Yunna Duan, Haifeng Hu, Yong Zhao and Qi Wang. Flexible NWs sensors in polymer, metal oxide and semiconductor materials for chemical and biological detection[J]. Sensors and Actuators B: Chemical, 219: 65-82, 2015.
[11] Jin Li*, Hanyang Li, Haifeng Hu, Yong Zhao and Qi Wang. Preparation and spectral characteristics of micron metal particles doped quartz fiber[J]. Optics & Laser Technology 68: pp.79-83, 2015.
[10] Jin Li*, Yong Zhao, Haifeng Hu, Qi Wang and Jing Zhang. SPR based hollow prism used as RI sensor[J].Optik, 126(2): 199-201, 2015.
[9] Jin Li*, Yong Zhao, Haifeng Hu, Qi Wang and Jing Zhang. Waveform shaping of 1550nm transmission through hollow quartz fiber[J].Optik, 125(20): 6102-6105, 2014.
[8] Jin Li*, Hanyang Li, Yong Zhao, Haifeng Hu and Qi Wang. Hollow fiber taper with a silver micro-sphere used as refractive index sensor[J]. Optics Communications 318: 7-10, 2014.
[7] Jin Li*, Yundong Zhang*, Hanyang Li, Chengbao Yao and Ping Yuan. The optical response of the silver nano-sphere with two spindle-shaped cavities in a sub-wavelength quartz fiber[J].Europhysics Letters 102(6): 67012, 2013.
[6] Jin Li,Yundong Zhang*, Hanyang Li, Chengbao Yao and Ping Yuan. Observation of tunable superluminal propagation in the single-layer graphene oxide solution[J]. Optics Communications 295: 226-229, 2013.
[5] Yundong Zhang*, Jin Li, Hanyang Li, Chengbao Yao and Ping Yuan. Plasmon induced transparency in subwavelength structures[J]. Optics & Laser Technology 49: 202-208, 2013.
[4]Jin Li, Hanyang Li, Kaiyang Wang, Xuenan Zhang, Chengbao Yao, Yundong Zhang* and Ping Yuan. Plasmon resonance of silver micro-sphere in fiber taper[J]. Optics Express 21(18): 21414-21422, 2013.
[3] Jin Li*, Yundong Zhang, Hanyang Li, Chengbao Yao and Ping Yuan. Power spectrum in the MIM waveguide with single tooth-structure and nano-structure detection[J].Optik, 124(24): 6772-6775, 2013.
[2] Jin Li*, Yundong Zhang, Hanyang Li, Chengbao Yao and Ping Yuan. Optical transmission characteristics of air-core fiber based on surface plasmon resonance effect of silver sphere[J]. Russian Physics Journal, 56(11): 1310-1313, 2012.
[1] Jin Li*, Yundong Zhang, Hanyang Li, Lei Ma and Ping Yuan. Surface plasmon excitation in a hollow prism[J].Physica E: Low-dimensional Systems and Nanostructures 44(7-8):1667-1669, 2012.