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李晉

(西北農林科技大學,機械與電子工程學院,教授,博士生導師)

鎖定
李晉,男,1983年12月出生於山西省運城市鹽湖區,中國光學學會激光光譜專委會委員。IEEE光子學會、IEEE傳感器學會、美國光學學會、中國電子學會、中國自動化學會會員。SCI檢索期刊Frontiers in Physics 副主編, Frontiers in Materials、Sensors\Photonics(MDPI)客座編委,Frontiers in Sensors編委;同時擔任Nanoscale、Sensors and Actuators A/B、Optics Letters、Optics Express、IEEE Transactions on Instrumentation and Measurement、IEEE Sensors Journal、Plasmonics、Analyst、Analytical methods等國際學術期刊審稿專家。發表一作/通信SCI檢索論文60餘篇,授權發明專利16項,登記軟件著作權2項,出版學術專著4部。 [4] 
主要從事先進光纖傳感器件、智能光電檢測技術,及其在智能農機裝備和智慧農業過程控制領域的基礎及應用研究工作,旨在推進農業智能傳感器模塊開發、集成化裝備及產業化進程,主持國家重點研發計劃子課題、國家自然科學基金、遼寧省自然科學基金材料聯合基金等省部級以上項目9項;近年來,作為技術骨幹成員參與了國家傑出青年基金、國家科技支撐計劃、863、教育部、總裝備部等重點和重大項目的研究。 [4] 
中文名
李晉
國    籍
中國
民    族
漢族
出生地
山西省運城市
出生日期
1983年12月12日
畢業院校
哈爾濱工業大學
職    業
教師
研究方向
微納米光纖傳感及檢測系統、先進光電檢測及智能化應用。

目錄

  1. 1 人物履歷
  2. 2 科研項目
  3. 3 主要課程
  1. 4 期刊論文
  2. 5 會議論文
  3. 6 學術兼職
  1. 7 獲得榮譽

李晉人物履歷

2023.03月——,西北農林科技大學機械與電子工程學院,教授 [4] 
2022.01月——2023.02月,東北大學信息科學與工程學院特聘研究員; [3] 
2016年01月——2021年12月,東北大學信息科學與工程學院副教授
2013年12月——2015年12月,東北大學信息科學與工程學院講師
2009年9月——2013年12月,哈爾濱工業大學航天學院物理電子學專業,工學博士;
2007年9月——2009年7月,哈爾濱工業大學深圳研究生院,物理電子學專業,工學碩士;
2003年9月——2007年7月,哈爾濱工業大學航天學院,電子科學與技術專業,工學學士。

李晉科研項目

主持項目: [1] 
2020/08-2022/01 核電安全監控技術與裝備國家重點實驗室開放課題:“光纖流量測量技術研究” 15萬
2020/01-2021/12 教育部中央高校基本科研業務費-國家項目培育種子基金:“二維全介質納米結構的光纖集成化設計及傳感技術研究”(N2004007)12萬
2020/01-2022/12 國家重點研發計劃製造基礎技術與關鍵部件重點專項項目子課題:“緊湊型激光光譜核心部件高密度集成技術研究”(2019YFB2006001) 100萬
2019/01-2019/12 長春光學精密機械與物理研究所應用光學國家重點實驗室開放課題:“微納光纖光場增強及傳感應用研究”10萬
2019/01-2021/12 遼寧省自然科學基金材料聯合基金:“介質納米材料修飾微納米光纖的類SPR傳感技術研究”(20180510015)15萬
2018/12-2019/11 核電安全監控技術與裝備國家重點實驗室開放課題:“非接觸式管外光纖流量探測技術研究”10萬
2018/06-2018/12 東北大學信息學院學科建設青年創新人才類項目:“高性能微納光纖傳感關鍵技術研究”3萬
2018/01-2019/12 教育部中央高校基本科研業務費-優秀科技人才培養基金:“納米材料輔助增強微納光纖傳感技術”(N170405003)40萬
2016/01-2017/12 教育部中央高校基本科研業務費-國家項目培育種子基金:“磁性金納米粒子光子晶體光纖的製備及生物傳感技術研究”(N150404022)10.5萬
2015/01-2017/12 遼寧省博士科研啓動基金:“摻雜型聚合物微納米光纖傳感器件製備及初步實驗研究”(201501144)6萬
2015/01-2017/12 國家自然科學基金青年科學基金項目:“金屬微納米粒子摻雜石英光纖多參量傳感特性研究”(61405032)25萬
參與項目: [1] 
2017/01-2019/12 教育部基本科研業務費重大科技創新項目:“用於海洋關鍵參數智能感知的先進傳感器技術研究”(N160408001)(負責人:趙勇)
2017/01-2019/12 國家自然科學基金青年基金:“特高壓環境下高靈敏度分佈式光纖電流傳感技術研究”(51607028)(負責人:呂日清)
2016/01-2018/12 教育部中央高校基本科研業務費學術創新團隊建設項目:“高性能光纖傳感器理論與關鍵問題研究”(N150401001)(負責人:趙勇)
2015/01-2017/12 國家自然科學基金青年基金:“基於金屬薄膜-顆粒複合結構的光纖SPR傳感器研究”(61403074)(負責人:胡海峯)
2014/01-2016/12 教育部中央高校基本科研業務費學術創新團隊(小團隊)項目:“新型光纖傳感器理論與關鍵技術”(N130104002)(負責人:趙勇)

李晉主要課程

《信息時代下的電子感官》;《現代生活中的信息感知》;《光電檢測技術》;《傳感器敏感材料及器件》;《現代傳感技術》;《光纖技術》;《光纖傳感技術》 [1] 

李晉期刊論文

[1] 
2023年 [4] 
Yan-Nan Wang, Jin Li*, FanliMeng. Design and performance of fiber vibration sensor based on Fabry-Perotstructures with microbubble. IEEE Sensors Journal, 2023, 23(15): 16930-16937.
Fuhua Liu, Hongtao Dang, Ruixin Tian, JinLi*, Juan Wang and Dewen Wang. Sensing Performance of Ethanol MicrofiberProbe Augmented by ZnO Nanosheet and UV Glue Film. Photonics 2023, 10(6): 656.
Yiran Sun, Yannan Wang, Jin Li*,Fanli Meng. Load and vibration optical fiber sensor based on miniatureFabry-Perot cavity encapsulated by micron thickness of silica film. IEEESensors Journal, 2023, 23(12): 12930-12935.
Yuying Wang, Jin Li*, Li-NaGuo, Mingjun Tian, Fanli Meng. Development of fabrication technique and sensingperformance of optical fiber humidity sensors in the most recent decade[J].Measurement, 2023, 215: 112888.
Hongtao Dang, Zhiwei Yu, Jianye Yang, JinLi*. Sensing performance comparison for two kinds of reflected fiberethanol probes with flatted end and microfiber taper, Optical Fiber Technology,2023, 77: 103281.
Hongtao Dang, Jianfeng Wang, DewenWang and Jin Li*. Refractive index sensing performance demonstration ofreflective microfiber long taper elaborated by silver and silicon nanoparticlesusing seawater samples, Physica Scripta, 2023, 98(2), 025507.
[58] Mingjun Tian, Jin Li* and FanliMeng. Independent measurement of refractive index and temperature usingD-gapped dual-channel structure in a photonic crystal fiber, Optical andQuantum Electronics, 2023, 55(4): 301.
Fuhua Liu, Yu Wang, Hongtao Dang, JinLi*, Refractive index sensing properties of microfibercascaded-long-tapers, Microwave and Optical Technology Letters, 2023, 65(5):1186-1191.
Jiaxuan Fan, Wenyu Li, Yuhao Liu,Shuxin Yang, Jin Li*, Fiber strain sensor based on compact in-line aircavity fabricated by conventional single mode fiber, Microwave and OpticalTechnology Letters, 2023, 65(5): 1093-1098.
2022年 [4] 
Li-Na Guo, Jin Li*, Fanli Meng,Refractive index sensing performance of stepped-mTFBG fabricated byflexibly-regulating wet etching process[J]. Sensors and Actuators A: Physical,2022, 346: 113875.
Hongtao Dang, Yan Zhang, Yukun Qiao, JinLi*. Refractive Index and Temperature Sensing Performance of MicrofiberModified by UV Glue Distributed Nanoparticles[J]. Polymers, 2022, 14(12): 2425.
Jin Li*, Gaoliang Chen, FanliMeng, A fiber-optic formic acid gas sensor based on molybdenum disulfidenanosheets and chitosan works at room temperature, Optics & LaserTechnology, 150, 107975, 2022.
Gaoliang Chen, Jin Li*, FanliMeng, Formic acid gas sensor based on coreless optical fiber coated bymolybdenum disulfide nanosheet, Journal of Alloys and Compounds, 896, 163063,2022.
Haiquan Liu, Chengbao Yao, Jin Li*,Wenjun Sun, Caihong Jiang. Modulating the electron transfer and resistivity ofAg plasma implanted and assisted MoS2 nanosheets. Applied Surface Science, 571,151176, 2022.
Jin Li*. Micro-/nano-fiber sensors andoptical integration devices[J]. Sensors, 2022, 22, 7673.
Jiangtao Cui, Gaoliang Chen, JinLi*, PMMA‑coated SMF–CLF–SMF‑cascaded fiber structure and its humiditysensing characteristics. Applied Physics B, 128, 36, 2022.
Jie Meng, Jinna Ma, Jin Li*,Hao Yan, Fanli Meng, Humidity Sensing and Temperature Response Performance ofPolymer Gel Cold-Spliced Optical Fiber Fabry-Perot Interferometer. OpticalFiber Technology, 68, 102823, 2022.
Shuang Zhang, Tianyao Qi, Jin Li*,Fanli Meng, Design and sensing characteristics of ethanol fiber probeelaborated by ZnO nanosheets, Journal of Physics and Chemistry of Solids, 2022,162: 110495.
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
Jin Li*, Yan-nan Wang, Juntong Yang.Compact Fabry-Perot microfiber interferometer temperature probe with closed endface. Measurement, 178, 109391, 2021.
Jin Li*, Duk-Yong Choi,Mateusz JakubSmietana. Novel Smart Materials for Optical Fiber Sensor Development. Frontiersin Materials, 8, 671086, 2021.
Jin Li*, Hao Yan, Hongtao Dang, FanliMeng. Structure design and application of hollow core microstructured opticalfiber gas sensor: A review. Optics & Laser Technology, 135, 106658, 2021.(ESI高被引)
JiaxuanFan, Wenyu Li, Yuhao Liu, Shuxin Yang, Jin Li*, Fiber strain sensor based oncompact in-line air cavity fabricated by conventional single mode fiber,Microwave and Optical Technology Letters, 2021. DOI: 10.1002/mop.33157.
MingshuChen, Hongtao Dang, Jie Zhang, Yang Wang, Jin Li*. Mach-Zehnder interferometerrefractive index sensing probe based on dual microfiber coupler. Optik, 2021,228: 166181.
李晉*,閆浩,孟傑. 光子晶體光纖氣體吸收光譜探測技術研究進展. 光學 精密工程, 29(10), 2316-2329, 2021.
2020年
Hongtao Dang, Mingshu Chen, Jin Li*. Ahighly-sensitive temperature-sensor based on a microfiber knot-resonatorpackaged in polydimethylsiloxane. IEEE Photonics Journal, 13(1), 7100208, 2020.
Lu Cai, Jin Li*. PDMS packaged MKR usedfor sensing longitudinal load change. Journal of Physics and Chemistry ofSolids, 138, 109268, 2020.
Yi Cai, Ming Li, Minghao Wang, Jin Li*,Yanan Zhang, Yong Zhao, Optical fiber sensors for metal ions detection based onnovel fluorescent materials. Frontiers in Physics, 8, 552, 2020.
Hongtao Dang, Mingshu Chen, Jin Li*,Wei Liu. Sensing performance improvement of resonating sensors based onknotting micro/nanofibers: A review. Measurement, 170, 108706, 2020.
Jin Li*, Zhoubing Li, Juntong Yang, YueZhang, Chunqiao Ren. Microfiber Fabry-Perot interferometer used as atemperature sensor and an optical modulator, Optics and Laser Technology, 129,106296, 2020.
Jin Li*, Zhoubing Li, Juntong Yang, YueZhang, Chunqiao Ren. High sensitivity temperatureprobe based on elliptical microfiber knot ring, Results in Physics, 16, 102953,2020.
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 (本科大創), 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 (本科畢設),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 (碩士), 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 (本科畢設) 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.
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.
Y.D. Zhang*, J. Li, et al. Slow-light transmission in the metal-dielectric structure based on plasmon-induced transparency. SPIE, San Francisco, US, 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.
2012年:
J. Li*, et al. Surface plasmon excitation in a hollow prism. Physica E 44(7-8): 1667-1669, 2012.

李晉會議論文

[2] 
1. 2021年7.19-22,Optics Frontier: The 12th International Conference on Information Optics and Photonics,西安,口頭報告
2. 2021年9.22-23, European Lasers, Photonics and Optics Technologies Summit, 線上,邀請報告
3. 2020年11.26-29,第四屆全國激光光譜技術學術論壇,金華,口頭報告;
4. 2020年11.4-6,International Congress on Optics, Electronics, and Optoelectronics (ICOEO-2020),成都,邀請報告,分論壇主席;
5. 2020年9月,第二屆光電發展論壇有機光電材料與器件發展研討會,南京,邀請報告;
6. Zhoubing Li, Yue Zhang, Jin Li*. Microfiber Fabry-Perot interferometer for determining temperature with ultra-high sensitivity. International Photonics and Optoelctronics Meetings (POEM 2019), Wuhan, China, 11-14 November, 2019.
7. Jin Li*, Ning Gao, Fanli Meng. Preparation and sensing application of metal nanoparticles elaborated microfiber (C021). Optoelctronics Global Conference 2019, 9.3-6, 2019.
8. 2019年11月,承辦2019年自動化大會Workshop-智能感知與先進檢測技術
9. 2018年11月,負責承辦首屆世界傳感器大會分論壇-光纖傳感器技術與應用,並邀請到中科院院士姚建銓教授參會並作報告,成為大會亮點之一
10. 李晉. 核電站光纖傳感現狀及光纖輻射特性研究(2018147). 第三屆核電廠數字化儀控技術及應用研討會, 哈爾濱,8.16-17, 2018.
11. Jin Li*, Zhuangzhuang Mu, Rui Fan, Haifeng Hu. High sensitive temperature response of polymer packaged microfiber knot ring (ThE56). OFS-26, Lausanne Switzerland, 9.24-9.28, 2018.
12. Yundong Zhang*, JinLi, Hanyang Li, Chengbao Yao and Ping Yuan. Slow-light transmission in the metal-dielectric structure based on plasmon-induced transparency. Pro. SPIE 8998, Advances in slow and fast light VII, 899808, Feb. 21, San Francisco, California, United States, 2014.
13. Jin Li*, Yundong Zhang, Hanyang Li, Chengbao Yao and Ping Yuan. All-optical sensor based on surface plasmon polaritons in muti-layers metal-dielectric. The Chinese Optical Society Annual Conference 2013, Aug. 15-18, Changsha, China, 2013.
14. 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. The 11th Russian-Chinese Symposium on Laser Physics and Laser Technologies, May 10-12, P27, Tomsk, Russia, 2013.
15. Yundong Zhang*, Jin Li, Hanyang Li, Chengbao Yao and Ping Yuan. The optical response of trapezoidal comb-like nanostructures. The 2nd International Conference on Engineering and Technology Innovation 2012 (ICETI2012) Nov. 2-6, Kaohsiung, Taiwan, 2012.

李晉學術兼職

[2] 
1. SCI檢索期刊Frontiersin Materials、Sensors(MDPI)客座編委,Polymers(MDPI)編委,Frontiersin Sensors編委;
2. IEEE光子學會、IEEE傳感器學會、美國光學學會、中國電子學會會員;
3. 2021-2022 Light博士生學術聯賽(東北賽區)組委會委員、光電材料器件網專家委員會委員;
4. Nanoscale、Sensorsand Actuators A/B、Optics Letters、OpticsExpress、IEEE Transactions on Instrumentation and Measurement、Journalof Lightwave Technology、Optis&Laser Technology、OpticalFiber Technology、Plasmonics、Analyst、Analyticalmethods等國際學術期刊審稿專家。

李晉獲得榮譽

[1] 
2021年,河北省自然科學二等獎,3/4;
2020年,東北大學信息學院優秀黨務工作者;
2019年,第二屆“源創杯”創新創意大賽北部賽區複賽優勝獎(中央軍委科學技術委員會主辦)
2019年,東北大學招生宣傳優秀個人
2019年11月,協助趙勇教授和孟凡利教授承辦2019年自動化大會Workshop“智能感知與先進檢測技術”專題研討會
2018年11月,作為負責人承辦首屆世界傳感器大會分論壇“光纖傳感器技術與應用”,並邀請到中科院院士姚建銓教授參會並作報告,成為大會亮點之一
2018年,遼寧省教學成果獎二等獎;
2017年,東北大學教學成果獎特等獎;
2016年,遼寧省自然科學學術成果獎二等獎
2016年12月至2017年12月,澳大利亞國立大學訪問學者(國家留學基金委公派訪問學者項目資助)
2016年11月,赴香港中文大學、香港理工大學和香港城市大學進行學術訪問(學科建設資金資助)
參考資料