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    李晋

    • 博士生导师
    • 教师拼音名称:lijin
    • 出生日期:1983-12-12
    • 电子邮箱:
    • 入职时间:2013-12-16
    • 学历:博士研究生毕业
    • 办公地点:综合楼309
    • 性别:男
    • 联系方式:QQ272307619 微信linkingoo
    • 学位:博士
    • 在职信息:在职
    • 毕业院校:哈尔滨工业大学
    • 学科:检测技术与自动化装置
    • 2021-01-11曾获荣誉当选:河北省自然科学奖二等奖,基于磁流体光学特性的光纤磁场传感技术,3/4
    • 2020-06-20曾获荣誉当选:辽宁省教学成果奖三等奖
    • 2020-09-20曾获荣誉当选:东北大学信息学院优秀党务工作者
    • 2020-08-20曾获荣誉当选:沈阳市自然科学学术成果奖二等奖
    • 2019-06-20曾获荣誉当选:第二届“源创杯”创新创意大赛北部赛区复赛优胜奖(中央军委科学技术委员会主办)
    • 2017-09-10曾获荣誉当选:东北大学招生宣传优秀个人
    • 2018-06-20曾获荣誉当选:辽宁省教学成果奖二等奖
    • 2017-09-10曾获荣誉当选:东北大学教学成果奖特等奖
    • 2019-09-10曾获荣誉当选:东北大学招生宣传优秀个人
    • 2016-09-10曾获荣誉当选:辽宁省自然科学学术成果奖二等奖
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    研究领域与方向:微纳米光纤传感及检测系统、先进光电检测及智能化应用。

      

    期刊特刊编辑及会议分论坛征稿:

    Chairman: Jin Li. Workshop: Advanced Sensing and Detection Technology, The International Conference on  Frontiers of Electronics, Information and Computation Technologies, Changsha, 2021.5.21-23.

    Editor: Jin Li. Special Issue: Micro/nanofiber Sensors and Optical Integration Devices. Sensors(MDPI), JCR1区,IF=3.275, 2021.12截稿. https://www.mdpi.com/journal/sensors/special_issues/Nanofiber_Sensors

    Editors: Jin Li, Duk-Yong Choi, Mateusz Smietana, Special Issue: Novel Smart Materials for Optical Fiber Sensor Development, Frontiers in Materials/Physics, JCR 2区, IF=2.705/2.638, 2020.3-11. 【https://www.frontiersin.org/research-topics/13004/novel-smart-materials-for-optical-fiber-sensor-development】


    代表性学术论文:

    2021年:

    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, Accepted, 2021.

    Jin Li*, Duk-Yong Choi, Mateusz Smietana, Editorial: Novel Smart Materials for Optical Fiber Sensor Development, Frontiers in Materials,8, 671086, 2021.

    Jin Li*, Y.N. Wang, J.T. Yang. Compact Fabry-Perot microfiber interferometer temperature probe with closed end face. Measurement, 178, 109391, 2021.

    M.S. Chen, ... Jin Li*. Mach-Zehnder interferometer refractive index sensing probe based on dual microfiber coupler. Optik, 228: 166181, 2021.

    Jin Li*, H. Yan, et al. Structure Design and Application of Hollow Core Microstructured Optical Fiber Gas Sensor. Optics & Laser Technology, 135, 106658, 2021.



    2020年:

    H.T. Dang, ..., Jin Li*, et al. Sensing performance improvement of resonating sensors based on knotting micro/nanofibers: A Review. Measurement, 170, 108706, 2020.

    H.T. Dang, ..., Jin Li*. A highly-sensitive temperature-sensor based on a microfiber knot-resonator packaged in PDMS. IEEE Photonics J., 13, 7100208, 2020.

    Jin Li*, H.R. Wang, Z. Li, Z.C. Su, Y. Zhu. Preparation and Application of Metal Nanoparticals Elaborated Fiber Sensors. Sensors, 20, 5155, 2020.

    Jin Li*, Z.B. Li, J.T. Yang, et al. Microfiber Fabry-Perot interferometer used as a temperature sensor ..., Optics & Laser Technology, 129, 106296, 2020.

    Jin Li*, Z.B. Li, J.T. Yang, et al. High sensitivity temperature probe based on elliptical microfiber knot ring, Results in Physics, 16, 102953, 2020.

    L. Cai, Jin Li*. PDMS packaged MKR used for sensing longitudinal load change. Journal of Physics and Chemistry of Solids, 138, 109268, 2020.

     

    2019年:

    Jin Li*, J.T. Yang, J.N. Ma. Highly sensitive temperature sensing performance of a microfiber Fabry-Perot interferometer ... , Micromachines, 10, 773, 2019.

    R. Fan, J.T. Yang, Jin Li*, F.L. Meng*. Temperature measurement using a microfiber knot ring encapsulated in PDMS. Physica Scripta, 94(12), 125706, 2019.

    Z.B. Li, Y. Zhang ... Jin Li*. A high sensitivity temperature sensing probe based on microfiber Fabry-Perot interference. Sensors, 19(8), 1819, 2019.

    J.T. Yang, ... Jin Li*, F.L. Meng, Hydrogen leakage detectors based on a polymer microfiber decorated with Pd nanoparticles. IEEE Sensors J., 19(16): 6736-6741, 2019.

    J. Li*, et al. Load sensing of a microfiber knot ring (MKR) encapsulated in polydimethylsiloxane (PDMS). Instrumentation Science & Technology, 47(5):511-521, 2019. 

    N. Gao, ... Jin Li*. Palladium nanoparticles doped polymer microfiber functioned as a hydrogen probe. International J. of Hydrogen Energy, 44(26):14085-14091, 2019.

    R. Fan, Z.Z. Mu, J. Li*. Miniature temperature sensor ... polymer-packaged silica microfiber resonator. Journal of Physics and Chemistry of Solids,129:307-311,2019.


    2018年:

    H.T. Dang, J. Li*,et al.Miniature temperature sensor based on encapsulated silica microfibre–microsphere structure.Micro&Nano Letters 13(12):1739-1742,2018.

    J. Li*,R. Fan, et al.Hydrogen sensing performance of silica microfiber elaborated with Pd nanoparticles.Materials Letters 212:211-213,2018.[ESI高被引]


    2017年:

    J. Li*,et al.Tunable orbital angular momentum mode conversion in asymmetric long period fiber gratings.IEEE Photonics Technology Letters 29(23):2103-2106,2017.

    R.Q. Lv, J. Li*,et al.Miniature refractive index fiber sensor based on silica micro-tube and Au microsphere.Optical Materials 72:661-665,2017.

    J. Li*,L.T. Gai,et al.A high sensitivity temperature sensor based on packaged microfiber knot resonator.Sensors and Actuators A: Physical 263:369-372,2017.

    J. Li*,Q. Nie,et al.Highly Sensitive temperature sensing probe based on deviation S-shaped microfiber.J. Lightwave Technology 35(17):3706-3711,2017.

    J. Li* et al. Recent developments in electrochemical sensors based on nanomaterials .... Journal of Materials and Science 52(17):10455-10469,2017.

    J. Li* et al. Refractive index sensor based on silica microfiber doped with Ag microparticles. Optics & Laser Technology 94: 40-44, 2017.

    L.T. Gai, J. Li* et al. Preparation and application of microfiber resonant ring sensors: A review,Optics&Laser Technology 89:126-136,2017.

    J. Li*,F. Chen, et al.Investigation on high sensitivity RI sensor based on PMF. Sensors and Actuators B 242:1021-1026,2017.


    2016年:

    H.F. Hu, J. Li*, et al. Research on the glucose-sensing characteristics of gold microparticle-doped silica microfiber .... Applied Physics B 122(11): 282, 2016.

    J. Li*, C.X. Liu et al. Ag Micro-spheres Doped Silica Fiber Used as a Miniature Refractive Index Sensor. Sensors and Actuators B 223: 241-245, 2016.


    2015年:

    J. Li*, et al. Flexible NWs sensors in polymer, metal oxide and semiconductor materials for chemical and biological detection. Sensors and Actuators B 219: 65-82, 2015.

    J. Li*, et al. Preparation and application of polymer nano-fiber doped with nano-particles. Optical Materials 40: 49-56, 2015.

    J. Li*, et al. Preparation and spectral characteristics of micron metal particles doped quartz fiber. Optics & Laser Technology 68: 79-83, 2015.

    H.Y. Li, J. Li*, et al. Whispering gallery modes of dye-doped polymer microspheres in microtube. Optics Communications 354: 66-70, 2015.  

    J. Li*, et al.SPR based hollow prism used as RI sensor. Optik 126(2): 199-201, 2015.</DIV>

            

    2014年:

    J. Li*, et al. Hollow fiber taper with a silver micro-sphere used as refractive index sensor. Optics Communications 318: 7-10, 2014.

    J. Li*, et al. Waveform shaping of 1550nm transmission through hollow quartz fiber. Optik 125(20): 6102-6105, 2014.

    J. Li*, et al. All-optical sensor based on surface plasmon polaritons in muti-layers metal-dielectric. Chinese Optics Letters 12(Suppl.): pp. S12403, 2014. 


    2013年:

    H.Y. Li, J. Li, et al. Single-mode lasing of nanowire self-coupled resonator. Nanoscale 5: 6297-6302, 2013. 

    J. Li*, et al. Plasmon resonance of silver micro-sphere in fiber taper. Optics Express 21(18): 21414-21422, 2013. 

    J. Li*, et al. 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. 

    J. Li, Y.D. Zhang*, et al. Observation of tunable superluminal propagation in the single-layer graphene oxide solution. Optics Communications 295: 226-229, 2013. 

    Y.D. Zhang*, J. Li, et al. Plasmon induced transparency in subwavelength structures. Optics & Laser Technology 49: 202-208, 2013.

    J. Li*, et al. Power spectrum in the MIM waveguide with single tooth-structure and nano-structure detection. Optik 124(24): 6772-6775, 2013.

    J. Li*, et al. Optical transmission characteristics of air-core fiber based on surface plasmon resonance effect of silver sphere. Russian Physics Journal 56(11): 1310-1313.

    J. Li*, et al. Surface plasmon excitation in a hollow prism. Physica E 44(7-8): 1667-1669, 2012. 


    申请及授权专利:

    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,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,申请号:202010317735.2,申请公布日:2020.04.21

    14. 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

    15. 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,申请号:....,申请公布日:2021

    16. 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,申请号:.....,申请公布日:2021

    17. 李晋,闫浩,高宏亮,自适应高精度气体光谱数据预处理采集及分析系统V1.0,软著登记号:2021SR0323623.