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刘彬

个人主页:

长期从事光纤传感、纳米/生物光子学、光学微腔及光学非线性动力学等方面的研究工作,具有深厚坚实的学术研究基础和良好的学术素养,主要研究包括:光纤相干计在传感中的应用、微纳光纤结构及生物医学应用、光纤智能穿戴设备、微纳光子器件设计及应用、光学非线性及光孤子等。近年来,先后主持国家自然科学基金5项,省级级科研项目8项并作为科研骨干参与多项国家和省部级项目;以第一或通讯作者在Biosensors and Bioelectronics, Sensors and Actuatoars B: Chemical, Optics Letters, Optics Express, IEEE Sensors Journal, Chinese Optics Letters等国内外权威学术期刊上发表SCI检索论文70多篇,获授权相关国家发明专利10多项。

个人主页:

https://www.researchgate.net/profile/Bin-Liu-188;

https://www.scholarmate.com/P/QR3Eb2;

3年发表论文如下

  1. 1.“Ultrasensitive biosensor based on magnetic microspheres enhanced microfiber interferometer,” Biosensors and Bioelectronics 145, 111563 (2019). (TOP,影响因子12.54,中科院1)
    2.“Simple harmonic and damped motions of dissipative solitons in two-dimensional complex Ginzburg-Landau equation supported by an external V-shaped potential,” Chaos, Solitons and Fractals, 150: 111126 (2021). (TOP,影响因子9.92,中科院1区)
    3.“Ultrahigh-sensitivity label-free optical fiber biosensor based on a tapered singlemode- no core-singlemode coupler for Staphylococcus aureus detection,” Sensors and Actuators B: Chemical 320(1), 128283 (2020). (TOP ,影响因子9.22,中科院1区)
    4.Singlemode-Multimode-Singlemode Optical Fiber Sensor for Accurate Blood Pressure Monitoring,” Journal of Lightwave Technology, 40, 4443 (2022). (TOP影响因子4.44,中科院1区)
    5.“U-Shape Panda Polarization-Maintaining Microfiber Sensor Coated With Graphene Oxide for Relative Humidity Measurement,” Journal of Lightwave Technology, 39, 6308(2021). (TOP,影响因子4.44,中科院1区)
    6.“Low-Cost Wearable Sensor Based on a D-Shaped Plastic Optical Fiber for Respiration Monitoring,” IEEE Transactions on Instrumentation and Measurement, 70, 4004808, (2021). (TOP,影响因子5.33,中科院2)
    7.“Temperature-independent relative humidity sensing properties of polymer micro-bottle resonators coated with graphene oxide,” Measurement, 196, 111199 (2022). (影响因子5.33,中科院2)
    8. “Optical microfiber sensor for detection of Ni2+ ions based on ion imprinting technology,” Analyst, 147, 358 (2022). (影响因子5.23)
    9.“Tapered Microfiber MZI Biosensor for Highly Sensitive Detection of Staphylococcus Aureus,” IEEE Sensors Journal, 22, 5531 (2022) (中科院 2区,影响因子4.325)
    10.“Fiber Ring Laser Based on Side-Polished Fiber  MZI for Enhancing Refractive Index and Torsion Measurement”, IEEE Sensors Journal, 22, 7779 (2022) (中科院 2区,影响因子4.325)
    11.“Tapered side-polished microfibre sensor for high sensitivity hCG detection”, IEEE Sensors Journal, 22, 7727 (2022) (中科院 2区,影响因子4.325)
  2. 12.“Comparative Study on Sensing Properties of Fiber-Coupled Microbottle Resonators With Polymer Materials,” IEEE Sensors Journal, 21, 26681 (2021). (中科院 2区,影响因子4.325)
    13.Singlemode-Multimode-Singlemode Fiber Structures for Sensing Applications – A Review,” IEEE Sensors Journal, 21, 12734, (2021). (中科院 2区,影响因子4.325)
    14.“Investigation of a Side-Polished Fiber MZI and Its Sensing Performance,” IEEE Sensors Journal 20(11), 5909 (2020). (中科院 2区,影响因子4.325)
    15.“Wearable optical fiber sensor based on a bend singlemode-multimode-singlemode fiber structure for respiration monitoring,” IEEE Sensors Journal, 21, 4610 (2021). (中科院 2区,影响因子4.325)
    16.“Novel Microfiber Sensor and Its Biosensing Application for Detection of hCG Based on a Singlemode-Tapered Hollow Core-Singlemode Fiber Structure,” IEEE Sensors Journal 20, 9071 (2020). (中科院 2区,影响因子4.325)
    17.“Low-cost wearable device based D-shaped single mode fiber curvature sensor for vital signs monitoring,” Sensors & Actuators: A. Physical, 337, 113429 (2022). (中科院 2区,影响因子4.29)
    18.“Sensing characteristics of fiber Fabry-Perot sensors based on polymer materials,” IEEE Access, 8, 171316 (2020). (SCI 2区,影响因子3.8)
    19.“Investigation of Relative Humidity Sensing Using Tapered No-Core Fiber Coated With Graphene Oxide Film,” IEEE Access, 8, 220755 (2020). (SCI 2区,影响因子3.8)
    20.Plasmon-induced reflection and its application for all-optical diode based on paralleled double-stub resonators,” Applied Physics Express 12, 032011 (2019). (SCI 2区,影响因子2.8)
    21.“Asymmetrical tapered SMS fiber coupler for simultaneous measurement of temperature and RI and its application for bio-sensing,” Chinese Optics Letters 18, 061201 (2020). (SCI 2区,影响因子2.4)
    22.Mach-Zehnder Interferometer for High Temperature (1000°C) Sensing Based on a Few-Mode Fiber,” PHOTONIC SENSORS, 11, 341 (2021). (SCI 3区,影响因子2.8)

授权国家专利:

  1. 美国发明专利授权:TAPERED SIDE-POLISHED FIBER-OPTIC BIOSENSOR AND METHOD FOR PREPARING TAPERED SIDE-POLISHED FIBER,11209596;
    国家发明专利授权:一种基于D型光纤与微球耦合的温度传感器及其制作方法,CN201810327332.9;
    国家发明专利授权:基于手机摄像头的MIMO可见光通信信号提取方法,CN201910557890.9;
    国家发明专利授权:基于侧抛光纤马赫曾德干涉仪的折射率与温度传感器,CN201910203100.7;
    国家发明专利授权:一种微纳光纤纳牛量级力学传感器,CN202010331165.2;
    国家发明专利授权:一种基于光纤传感器的声学/振动监测系统,CN202010756861.8;
    国家发明专利授权:一种基于二维光子晶体的全光二极管的实现方法,ZL201410759307.X;
    国家发明专利授权:光子晶体波导侧边双腔全光二极管结构,ZL201510437879.0;
    国家发明专利授权:一种全光二极管的实现方法,ZL201510437879.0。