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李晋

          发布日期:2023-09-30     浏览次数:

     

李晋.JPG

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

电话/传真:029-87092391

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,Chips、稀有金属青年编委;同时担任Nanoscale、Sensors and Actuators A/B、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70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件、智能光电检测技术,及其在智能农机装备和智慧农业过程控制领域的基础及应用研究工作,旨在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:农业工程(082801)

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》等

 

五.出版学术专著:

1.      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, 2023.12. ISBN 978-7-03-077315-9.

2.      B.D. Gupta, A.K. Sharma, Jin Li. Plasmonics based Optical Sensors and Detectors, Stanford Publishing, 2023.04, ISBN 978-981-4968-85-0.

3.      Jin Li, Micro/nanofiber Sensors and Optical Integration Devices, MDPI, 2022. ISBN 978-3-0365-5630-7.

4.      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:

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;

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;

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;

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;

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;

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;

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;

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;

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;

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;

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;

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;

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;

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;

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.

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.

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

 

七.期刊论文:

2024年:

[73] 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, 20242024: 136644.

[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, Accepted, DOI: 10.1109/JSEN.2024.3454272.

[69] Yan-Nan 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] Yan-Nan 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, 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, 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. 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. 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. 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, 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, 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, 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, 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, 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, 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, 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. 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. 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. 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, 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, 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. 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. 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. 光学精密工程, 29(10), 2316-2329, 2021.

[42] Jin Li*, Duk-Yong Choi, Mateusz Jakub Smietana. 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. Optik, 2021, 228: 166181.

 

2020年:

[40] Hongtao Dang, Mingshu Chen, Jin Li*, Wei Liu. Sensing performance improvement of resonating sensors based on knotting micro/nanofibers: A review. 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, 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, 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. 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. 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. Frontiers in Physics, 8, 552, 2020.

 

2012-2019年:

[33] Juntong Yang, Rui Fan, Jin Li*, Fanli Meng, Hydrogen leakage detectors based on a polymer microfiber decorated with Pd nanoparticles. 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. International J. 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. Sensors, 19(8), 1819, 2019.

[30] Rui Fan, Juntong Yang, Jin Li*, Fanli Meng*. Temperature measurement using a microfiber knot ring encapsulated in PDMS. Physica Scripta, 94(12), 125706, 2019.

[29] Rui Fan, Zhuangzhuang Mu, Jin Li*. Miniature temperature sensor based on polymer-packaged silica microfiber resonator. 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, Micromachines, 10, 773, 2019.

[27] Jin Li*, Juntong Yang, Jinna Ma. Load sensing of a microfiber knot ring (MKR) encapsulated in polydimethylsiloxane (PDMS). 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. 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. Optik: International Journal for Light and Electron Optics 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. Optik: International Journal for Light and Electron Optics 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. 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. 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. Optics Communications 295:  226-229, 2013.

[5] Yundong Zhang*, Jin Li, Hanyang Li, Chengbao Yao and Ping Yuan. Plasmon induced transparency in subwavelength structures. 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. 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. Optik: International Journal for Light and Electron Optics 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. 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. Physica E: Low-dimensional Systems and Nanostructures 44(7-8):  1667-1669, 2012.

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