光纤传感器和非线性光学。
《传感技术学报》编委;中国仪器仪表学会微纳器件与系统技术学会常务理事;广东省仪器表学会常务理事;教育部全国高校传感器技术研究会理事;深圳市智能控制技术与应用协会名誉会长;深圳市仪器仪表行业协会副会长;深圳市南山区传感器技术产学研联盟理事长。[1]
在长期从事光纤传感器的研究工作,在Optics Letter, Optics Express, Sensors and Actuators B: Chemical ,IEEE Photonics Technology Letters, Applied Physics B, Applied Optics, Journal of Physics D: Applied Physics和Plasmonics.等国际权威期刊发表论文100余篇。[1]
申请和获得授权的发明专利25项,其中美国专利1项。[1]
主编出版教材一部。
主持和参与国家自然科学基金、教育部博士学科点专项科研基金、广东省自然科学基金、广东省省部产学研项目、广东省高层次人才项目和深圳市重大培育项目等各类科技项目二十余项。[1]
讲过的课程有《光学传感》,《光纤传感器技术》,《数字电路》,《电子技术》,《传感器技术》,《传感器实验》,《固体电子器件》, 《普通物理实验》, 《大学物理实验》等。[1]
2019年“新型超灵敏光纤温度传感器创新技术研究”获得深圳市自然科学奖“二等奖”(第一完成人);
2010年“用于工程结构与危化品安全监测的传感器关键技术”获广东省科学技术“三等奖”(第一完成人);
2009年“面向工程结构与危化品安全监测的新型光纤传感器和纳米气体传感器技术”获得“深圳市创新奖”(第一完成人);
2008年获得“深圳市优秀教育工作者”称号;
2008年获得全国信息光学与光子器件学术会议优秀论文二等奖一项;
2001年“政府公共关系多媒体课件组合教学”获广东省“三等奖”(第二完成人);
2000年获深圳市科协论文表彰奖一项;
1998年“珀尔帖效应演示仪”获教育部工科物理课程指导委员会三等奖一项;
1998年获得“深圳市优秀教师”称号。
1 | D. Yi, Z. Huo, Y. Geng,X. Li, and X. Hong, "PDMS-coated no-core fiber interferometer with enhanced sensitivity for temperature monitoring applications," OPT FIBER TECHNOL 57 (2020). |
2 | Y. Li, Y. Chen, D. Yi, Y. Du, W. Luo, X. Hong,X. Li*, Y. Geng*, and D. Luo, "A self-assembled fiber Mach-Zehnder interferometer based on liquid crystals," J MATER CHEM C 8, 11153-11159 (2020). |
3 | Z. Liu, J. Huang, Q. Wang, J. Zhou, J. Ye,X. Li, Y. Geng, Z. Liang, Y. Du, and X. Tian, "Indium oxide-black phosphorus composites for ultrasensitive nitrogendioxide sensing at room temperature," Sens. Actuators B Chem (2020). |
4 | J. Huang, J. Zhou, Z. Liu,X. Li, Y. Geng, X. Tian, Y. Du, and Z. Qian, "Enhanced acetone-sensing properties to ppb detection level using Au/Pd-doped ZnO nanorod," SENSOR ACTUAT B-CHEM 310 (2020). |
5 | J. Wang, Z. Xing, X. Chen, Z. Cheng*,X. Li*, and T. Liu, "Recent Progress in Waveguide-Integrated Graphene Photonic Devices for Sensing and Communication Applications," FRONTIERS IN PHYSICS 8 (2020). |
6 | Y. Li, L. Wang, Y. Chen, D. Yi, F. Teng, X. Hong,X. Li*, Y. Geng*, Y. Shi, and D. Luo, "High-performance fiber sensor via Mach-Zehnder interferometer based on immersing exposed-core microstructure fiber in oriented liquid crystals," OPT EXPRESS 28, 3576-3586 (2020). |
7 | Y. Chen, Y. Ge, W. Huang, Z. Li, L. Wu, H. Zhang*, andX. Li*, "Refractive Index Sensors Based on Ti3C2Tx MXene Fibers," ACS Applied Nano Materials 3, 303-311 (2020). |
8 | D. Yi, Y. Chen*, Y. Geng, F. Teng, Y. Li, F. Liu,X. Li, and X. Hong, "Interrogation technique analyses of a hybrid fiber optic sensor based on SPR and MMI," OPT EXPRESS 28, 20764 (2020). |
9 | Y. Duo, C. Yuzhi*, G. Youfu, T. Fei, L. Yong,L. Xuejin, H. Xueming,and A. H. Xueming, "Low crosstalk hybrid fiber optic sensor based on surface plasmon resonance and MMI," OPT LETT 1 (2020). |
10 | J. Wang, Q. Li, D. Huang, C. Liang, Y. Chen, L. Fang, Y. Geng, X. Hong, andX. Li*, "Design of graphene-on-germanium waveguide electro-optic modulators at the 2 mu m wavelength," OSA CONTINUUM 2, 749-758 (2019). |
11 | J. Wang, L. Zhang*, Y. Chen, Y. Geng, X. Hong,X. Li*, and Z. Cheng, "Saturable absorption in graphene-on-waveguide devices," APPL PHYS EXPRESS 12 (2019). |
12 | J. Wang, Y. Chen, Y. Geng, X. Hong, andX. Li*, "Theoretical Design of Mid-infrared Graphene Optical Gas Sensor Based on Slot Si Core Fiber," IEEE PHOTONIC TECH L, 1 (2019). |
13 | Y. Geng*, L. Wang, X. Tan, Y. Xu, X. Hong, andX. Li, "A Compact Four-Wave Mixing-Based Temperature Fiber Sensor With Partially Filled Photonic Crystal Fiber," IEEE SENS J 19, 2956-2961 (2019). |
14 | L. Wang, Y. Xu, Y. Geng*, J. Wang, Y. Du, D. Yi, X. Hong, andX. Li, "High-sensitivity fiber salinity sensor based on an exposed-core microstructured fiber interferometer," J PHYS D APPL PHYS 52, 495402 (2019). |
15 | G. A. Kumar,X. Li*, X. Hong, Y. Geng, Y. Du, and S. T. Rao, "Investigation of structural, electrical and optical properties of oxygen (O7+) ion irradiated CdZnO thin films for solar cell applications," RADIAT PHYS CHEM 162, 107-113 (2019). |
16 | G. Kumar,X. Li*, Y. Du, Y. Geng, and X. Hong, "UV-light enhanced high sensitive hydrogen (H-2) sensor based on spherical Au nanoparticles on ZnO nano-structured thin films," J ALLOY COMPD 798, 467-477 (2019). |
17 | Z. Mai, J. Zhang, Y. Chen*, J. Wang, X. Hong, Q. Su, andX. Li*, "A disposable fiber optic SPR probe for immunoassay," BIOSENS BIOELECTRON 144, 111621 (2019). |
18 | F. Teng, D. Yi, X. Hong, andX. Li*, "Distributed fiber optics disturbance sensor using a dual-Sagnac interferometer," OPT LETT 44, 5101-5103 (2019). |
19 | Y. Geng*, L. Wang, X. Tan, J. Wang, Y. Du, andX. Li, "A highly sensitive four-wave mixing-based microstructured fiber refractive index sensor for microfluid sensing applications," APPL PHYS EXPRESS 12 (2019). |
20 | A. G. Kumar,X. Li*, Y. Du, Y. Geng, and X. Hong, "UV-photodetector based on heterostructured ZnO/(Ga,Ag)-co-doped ZnO nanorods by cost-effective two-step process," APPL SURF SCI (2019). |
21 | Y. Xu, Y. Geng, L. Wang, A. G. Kumar, L. Fang, Y. Du, andX. Li, "Femtosecond laser ablated pyramidal fiber taper-SERS probe with laser-induced silver nanostructures," J PHYS D APPL PHYS 51 (2018). |
22 | Y. Geng, Y. Xu, X. Tan, L. Wang,X. Li, Y. Du, and X. Hong, "A Simplified Hollow-Core Photonic Crystal Fiber SERS Probe with a Fully Filled Photoreduction Silver Nanoprism," SENSORS-BASEL 18 (2018). |
23 | J. Wang, Z. Cheng, andX. Li, "Progress on Waveguide-Integrated Graphene Optoelectronics," ADV COND MATTER PHYS (2018). |
24 | Q. Li, Y. Cen, J. Huang,X. Li, H. Zhang, Y. Geng, B. I. Yakobson, Y. Du, and X. Tian, "Zinc oxide-black phosphorus composites for ultrasensitive nitrogen dioxide sensing," NANOSCALE HORIZ 3, 525-531 (2018). |
25 | J. Huang, Y. Du, Q. Wang, H. Zhang, Y. Geng,X. Li, and X. Tian, "UV-Enhanced Ethanol Sensing Properties of RF Magnetron-Sputtered ZnO Film," SENSORS-BASEL 18 (2018). |
26 | Y. Geng, L. Wang, Y. Xu, A. G. Kumar, X. Tan, andX. Li, "Wavelength multiplexing of four-wave mixing based fiber temperature sensor with oil-filled photonic crystal fiber," OPT EXPRESS 26, 27907-27916 (2018). |
27 | Y. Chen,X. Li, H. Zhou, Q. Xie, X. Hong, and Y. Geng, "Effects of Incident Light Modes and Non-Uniform Sensing Layers on Fiber-Optic Sensors Based on Surface Plasmon Resonance," PLASMONICS 12, 707-715 (2017). |
28 | Y. Chen, Q. Xie,X. Li, H. Zhou, X. Hong, and Y. Geng, "Experimental realization of D-shaped photonic crystal fiber SPR sensor," J PHYS D APPL PHYS 50, 25101 (2017). |
29 | Q. Xie, Y. Chen,X. Li, Z. Yin, L. Wang, Y. Geng, and X. Hong, "Characteristics of D-shaped photonic crystal fiber surface plasmon resonance sensors with different side-polished lengths," APPL OPTICS 56, 1550-1555 (2017). |
30 | W. Wang, Z. Mai, Y. Chen, J. Wang, L. Li, Q. Su,X. Li, and X. Hong, "A label-free fiber optic SPR biosensor for specific detection of C-reactive protein," SCI REP-UK 7 (2017). |
31 | Y. Zeng, L. Wang, S. Y. Wu, J. He, J. Qu,X. Li, H. P. Ho, D. Gu, B. Z. Gao, and Y. Shao, "Wavelength-Scanning SPR Imaging Sensors Based on an Acousto-Optic Tunable Filter and a White Light Laser," SENSORS-BASEL 17, 90 (2017). |
32 | Y. Zeng, R. Hu, L. Wang, D. Gu, J. He, S. Y. Wu, H. P. Ho,X. Li, J. Qu, and B. Z. Gao, "Recent advances in surface plasmon resonance imaging: detection speed, sensitivity, and portability," NANOPHOTONICS-BERLIN 6 (2017). |
33 | Yuzhi Chen, Yongqin Yu,Xuejin Li, Huasheng Zhou, Xueming Hong, Youfu Geng, Fiber-optic urine specific gravity sensor based on surface plasmon resonance, Sensors and Actuators B: Chemical, Volume 226, April 2016, Pages 412–418. |
34 | Yuzhi Chen,Xuejin Li, Huasheng Zhou, Xueming Hong and Youfu Geng, Refractive index detection range adjustable liquid-core fiber optic sensor based on surface plasmon resonance and a nano-porous silica coating, Journal of Physics D: Applied Physics, Volume 49, Number 35; Published 4 August 2016 . |
35 | Yuzhi Chen,Xuejin Li, Huasheng Zhou, Qingli Xie, Xueming Hong,Youfu Geng, Effects of Incident Light Modes and Non-Uniform Sensing Layers on Fiber-Optic Sensors Based on Surface Plasmon Resonance; Plasmonics, pp 1–9, 30 June 2016. |
36 | Xiaoling Tan, Youfu Geng, andXuejin Li,High-birefringence photonic crystal fiber Michelson interferometer with cascaded FBG for pressure and temperature discrimination, Optical Engineering Letters, 55(9), 2016. |
37 | Xiaoling Tan ; Youfu Geng ;Xuejin Li, Reflective high-birefringence photonic crystal fiber Sagnac interferometer with cascaded FBG for pressure and temperature discrimination, Optical Engineering Letters, 55(9), 2016. |
38 | Geng Youfu, Yin Zhen, Tan Xiaoling, Du Yu, Hong Xueming, andLi Xuejin, Femtosecond Laser Ablated Polymer SERS Fiber Probe with Photoreduced Deposition of Silver Nanoparticles, IEEE Photonics Journal, Volume 8, Number 5, October 2016. |
39 | Yuzhi Chen,Xuejin Li, Huasheng Zhou, Xueming Hong and Youfu Geng ,Refractive index detection range adjustable liquid-core fiber optic sensor based on surface plasmon resonance and a nano-porous silica coating, Journal of Physics D: Applied Physics, Volume 49,Number 35,2016. |
40 | Zhen Yin, Rong Gao, Youfu Geng, Xiaoling Tan,Xuejin Li,A reflective temperature-insensitive all-fiber polarization-mode interferometer and pressure sensing application based on PM-PCF,Optik - International Journal for Light and Electron Optics, Volume 127, Issue 20, October 2016, Pages 9206–9211. |
41 | Yuzhi Chen, Qingli Xie,Xuejin Li, Huasheng Zhou, Xueming Hong and Youfu Geng, Experimental Realization of D-shaped Photonic Crystal Fiber SPR sensor, Journal of Physics D: Applied Physics, Volume 50, Number 2,November 2016 . |
42 | Yin, Zhen; Geng, Youfu;Li, Xuejin;Tan, Xiaoling;Gao, Rong ,V-groove all-fiber core-cladding intermodal interferometer for high-temperature sensing, Applied Optics, 54(2), pp 319-323, 2015/1/10. |
43 | Huang, Quandong;Yu, Yongqin;Li, Xuejin;Chen, Xue;Zhang, Yufeng;Zhou, Wen;Du, Chenlin ,Micro-bending vector sensor based on six-air-hole grapefruit microstructure fiber using lateral offset splicing, Optics Express, 23(3), pp 3010-3019, 2015/2/9. |
44 | Yin, Xiaojin; Wang, Wenyuan;Yu, Yongqin;Geng, Youfu;Li, Xuejin,Temperature Sensor Based on Quantum Dots Solution Encapsulated in Photonic Crystal Fiber, IEEE Sensors Journal, 15(5), pp 2810-2813, 2015/5. |
45 | Huang, Quandong;Yu, Yongqin;Ruan, Shuangchen;Li, Xuejin;Chen, Xue;Zhang, Yufeng;Zhou, Wen;Du, Chenlin ,In-Fiber Grating Fabricated by Femtosecond Laser Direct Writing for Strain Sensing, IEEE Photonics Technology Letters, 27(11), pp 1216-1219, 2015/6/1. |
46 | Yuzhi Chen, Yongqin Yu,Xuejin Li, Zhixin Tan, Youfu Geng.‘Experimental Comparison of Fiber-optic Surface Plasmon Resonance Sensors with Multi Metal Layers and Single Silver or Gold Layer’. Plasmonics. DOI 10.1007/s11468-015-9973-7 (2015) |
47 | Tan, Xiaolin;Li, Xuejing;Geng, Youfu;Yin, Zhen;Wang, Lele;Wang, Wenyuan;Deng, Yuanlong ;Polymer Microbubble-Based Fabry-Perot Fiber Interferometer and Sensing Applications, IEEE Photonics Technology Letters, 27(19), pp 2035-2038, 2015/10/1. |
48 | Youfu Geng,Xuejin Li, Xiaoling Tan, Yuanlong Deng, Xueming Hong,Compact and Ultrasensitive Temperature Sensor with a Fully Liquid-Filled Photonic Crystal Fiber Mach-Zehnder Interferometer,IEEE SENSORS JOURNAL, VOL. 14, NO. 1, JANUARY 2014. |
49 | X.L.Tan, Y.F.Geng,X.J.Li, Y.Q.Yu, Y.L.Deng, Z.Yin, R.Gao, Core Mode-Cladding Supermode Modal Interferometer and High-temperature Sensing Application Based on All-solid Photonic Bandgap Fiber, IEEE Photonics Journal, Vol.6, No. 1, February2014. |
50 | Zhen Yin, Youfu Geng,Xuejin Li, Xiaoling Tan, Rong Gao. V-groove based all-fiber intermodal Mach-Zenhder interferometer and high-temperature sensing application, Proc. SPIE 9157, 23rd International Conference on Optical Fibre Sensors, 915720 (June 2, 2014); doi:10.1117/12.2058840. |
51 | Zhixin Tan, Xin Hao, Yonghong Shao, Yuzhi Chen,Xuejin Li, and Ping Fan, Phase modulation and structural effects in a D-shaped all-solid photonic crystal fiber surface plasmon resonance sensor, Optics Express, Vol. 22, Issue 12, pp. 15049-15063 (2014). |
52 | Yu Du, Jihong Yu, Xueming Hong,Xuejin Liand Xiaoqing Tian. Charge Transfer from Cobaltammine Complex to Metal Fluoride Ions in Molecular Solids with Novel Photoelectronic Effects (Metal: Zirconium, Titanium), Dalton Transactions, 2014, 43(37):14039-14044.(SCI) |
53 | Yuan-long Deng, Xiao-xing Zeng, You-fu Geng andXue-jin Li. Inspection of Polymer Polaroid’s Visual Defects with Stripe Light Illumination, Monthly Review, 2014, 571-572(2):747-752. |
54 | Xiaoling Tan, Youfu Geng,Xeujin Li, Yuanlong Deng, Rong Gao, Zhen Yin, UV-curable Polymer Micro-hemisphere-based Fiber-optic Fabry-Perot Interferometer for Simultaneous Measurement of Refractive Index and Temperature, IEEE Photonics Journal, Volume 6, Number 4, August 2014. |
55 | Yongqin Yu;Quandong Huang;Xuejin Li; Xue Chen;Chenlin Du ,An in-line fiber-optic modal interferometer for simultaneous measurement of twist and ambient temperature, Sensing and Bio-Sensing Research, Vol.2, pp38-42, 2014/12. |
56 | Xiaojin Yin, Wenyuan Wang, Yongqin Yu, Youfu Geng, andXuejin Li, Temperature Sensor Based on Quantum Dots Solution Encapsulated In Photonic Crystal Fiber, IEEE Sensor Journal, Volume:15 , Issue: 5, pp 2810–2813. |
57 | Youfu Geng,Xuejin Li,* Xiaoling Tan, Yuanlong Deng, and Yongqin Yu, In-line flat-top comb filter based on a cascaded all-solid photonic bandgap fiber intermodal interferometer,Optics Express, Vol. 21, Issue 14, pp. 17352-17358 (2013). |
58 | Zhixin Tan,Xuejin Li*, Yuzhi Chen, Ping Fan, Improving the sensitivity of fiber surface Plasmon resonance sensor by filling liquid in a hollow core photonic crystal fiber, Plasmonics,(2013).Volume 8 Number 3. DOI 10.1007/s11468-013-9609-8 |
59 | Shao Y, Li Y, Gu D, Zhang K, Qu J, He J,Li X, Wu SY, Ho HP, Somekh MG, Niu H. Wavelength-multiplexing phase-sensitive surface plasmon imaging sensor, Source, Opt Lett.2013 May 1;38(9):1370-2. doi: 10.1364/OL.38.001370. |
60 | ZhixinTan,Xuejin Li*, Yuzhi Chen, Ping Fan, Real-time measurement with a fiber optical surface plasmon resonance sensor for biochemical interaction analysis, Proceedings of the SPIE, Volume 8914, id. 891406 7 pp. (2013). |
61 | Li Q, Wang HJ, You J, Li ZM,Li XJ., Enlarge the training set based on inter-class relationship for face recognition from one image per person, PLoS One. 2013 Jul 16;8(7). |
62 | Xiaomei Xu,Xuejin Li*, Yuanlong Deng, Xiaoqing Liu, Yongqin Yu, Zhou Huasheng, Safety monitoring of rail transit by fiber grating sensors, Proc. of SPIE 9044 - 76 V. 4 (p.1 of 8). |
63 | Xiaoling Tan, Youfu Geng,Xuejin Li*, Rong Gao, Zhen Yin, High temperature microstructured fiber sensor based on a partial-reflection-enabled intrinsicFabry–Perot interferometer, Applied Optics, 2013, Vol. 52, Issue 34,pp. 8195-8198. |