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个人简介

教育经历 1998.9 - 2001.12 北京邮电大学 电磁学与微波技术 博士 1995.9 - 1998.9 福州大学 物理化学 硕士 1991.9 - 1995.9 福州大学 电子材料 学士 工作经历 2011.3 - 至今 大连理工大学 教授 2008.12 - 2011.3 北京邮电大学 教授 2004.7 - 2008.12 北京邮电大学 副教授 2002.3 - 2004.7 北京邮电大学 讲师

研究领域

新型光纤传感器:发明的新型强度检测技术,克服了强度检测的敏度低痼疾,使其灵敏度可媲美相位检测;而且,与相位检测比,具有响应频带宽、抗加速度干扰、系统小巧便宜(体积缩小近千倍)的优势。 毛细管荧光仪:发明的“针孔金属毛细管LIF”,可抑制激光泄露导致的背景噪声,因此能够采用便宜微型的“半导体激光器”取代昂贵笨重的“氩离子激光器”。与主流产品(ZetaLIF)相比,成本和体积降低十倍以上,功耗降低一百倍,检测限改善2.5倍。 GaN电化学传感器:通过引入氮空位,首次让GaN具有“优异的化学催化活性”与“超高的电导率”;催化效果超过传统的Bi等贵金属,其电导率比现有n型GaN产品高出近一个数量级。所研制的GaN电化学传感器,检测限达50nM(比现有技术改善了几十倍),寿命可达2年以上(与现有产品相当)。 GaN纳米线集成传感器:从材料与工艺,解决纳米线的制备工艺与可靠性问题

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

Bai, Min,Cirlin, George,Huang, Hui,Liu, Zhe,Zhan, Tingting,Xia, Shufeng,Li, Xiaogan,Sibirev, Nickolay,Bouravleuv, Alexei,Dubrovskii, Vladimir G..InAs/InP core/shell nanowire gas sensor: Effects of InP shell on sensitivity and long-term stability[J],APPLIED SURFACE SCIENCE,2019,498 Xu, Siyu,Huang, Hui,Cai, Weicheng,Zhong, Yuan,Li, Dongsheng,Chen, Xiaoming,Zhang, Jianwei.Compact, low-cost, and highly sensitive optical fiber hydrophone based on incident angle sensing[J],APPLIED OPTICS,2019,58(28):7774-7780 Wang, Weiming,Yu, Yan,Huang, Hui.A portable high-resolution microscope based on combination of fiber-optic array and pre-amplification lens[J],MEASUREMENT,2018,125:371-376 Wang, Hongkai,Yang, Jia,Tan, Ziyu,Hui, Libo,Liu, Yue,Pan, Hang,Qu, Yue,Chen, Zhaofeng,Tan, Liwen,Yu, Lijuan,Shi, Hongcheng,Sun, Xiaobang,Huo, Li,Zhang, Yanjun,Tang, Xin,Zhang, Shaoxiang,Liu, Changjian,Wu, Tongning,Li, Congsheng,Chen, Zhonghua,Liao, Meiying,Li, Mengci,Yan, Wen,Huang, Hui.Deformable torso phantoms of Chinese adults for personalized anatomy modelling.[J],Journal of anatomy,2018,233(1):121-134 Wang, Weiming,Li, Long,Yu, Yan,Huang, Hui.Yeast concentration analysis by using the portable microscope based on the fiber-optic array[A],NANO-, BIO-, INFO-TECH SENSORS, AND 3D SYSTEMS II,2018,10597 Ye, Jiqing,Zhang, Yue,Huang, Hui,Wang, Jian,Jiang, Zhou,Bai, Min.Highly sensitive detection of thrombin using metal-waveguide-capillary based photometer and gold nanorods probe[J],SENSORS AND ACTUATORS B-CHEMICAL,2017,243:1255-1260 牛立群,王伟明,喻言,黄辉,白敏,王兵.重金属监测的光学单元无线化系统设计与研究[J],传感技术学报,2017,30(3):433-437 Hu, Jie,Huang, Hui,Bai, Min,Zhan, TingTing,Yang, ZhiBo,Yu, Yan,Qu, Bo.A high sensitive fiber-optic strain sensor with tunable temperature sensitivity for temperature-compensation measurement[J],SCIENTIFIC REPORTS,2017,7:42430 Zhao, Danna,Huang, Hui,Lv, Rui,Chen, Shunji,Guang, Qiyilan,Zong, Yang,Liu, Zhe,Li, Xiqing.Controlled growth of aligned GaN nanostructures: from nanowires and needles to micro-rods on a single substrate[J],RSC ADVANCES,2017,7(80):50781-50785 喻言,黄辉.Design and initial validation of wireless system for oil monitoring base on optical sensing unit[A],2017,10168:1-5 Zong, Yang,Huang, Hui,Song, Wenbin,Lv, Rui,Zhao, Danna,Liu, Zhe,Guang, Qiyilan,Guo, Jingwei,Tang, Zhenan.Growth of oriented GaN nanowires by controlling nucleation conditions[J],CRYSTAL RESEARCH AND TECHNOLOGY,2016,51(12):757-761 Bai, Min,Huang, Hui,Yu, Yan,Hao, Jian,Zhang, Ji,Fan, Jianchao,Yan, Jun.Trace analysis of oil-in-water by using visible LED and metal waveguide capillary[J],OPTICS EXPRESS,2016,24(13):14538-14545 Wang, Weiming,Yu, Yan,Huang, Hui,Ou, Jinping.Portable microscopy platform for the clinical and environmental monitoring[A],Conference on Nanosensors, Biosensors, and Info-Tech Sensors and Systems,2016,9802 Bai, Min,Huang, Hui,Hao, Jian,Zhang, Ji,Wu, Haibo,Qu, Bo.A compact photometer based on metal-waveguide-capillary: application to detecting glucose of nanomolar concentration[J],SCIENTIFIC REPORTS,2015,5:10476 Liu, Pengbo,Huang, Hui,Liu, Xueyu,Bai, Min,Zhao, Danna,Tang, Zhenan,Huang, Xianliang,Kim, Ji-Yeun,Guo, Jinwei.Core-shell nanowire diode based on strain-engineered bandgap[J],PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE,2015,212(3):617-622 Wu, Haibo,Huang, Hui,Bai, Min,Liu, Pengbo,Chao, Ming,Hu, Jie,Hao, Jian,Cao, Tun.An ultra-low detection-limit optofluidic biosensor based on all glass Fabry-Perot cavity[J],OPTICS EXPRESS,2014,22(26):31977-31983 Ren, Mingkun,Huang, Hui,Wu, Haibo,Zhao, Danna,Zhu, Huichao,Liu, Yan,Sun, Baojuan.Growth of high quality GaN nanowires by using Ga/GaCl3 sources[J],PHYSICA E-LOW-DIMENSIONAL SYSTEMS & NANOSTRUCTURES,2014,57:145-148 Zhang, Xu,Sun, Xiao-Hong,Huang, Hui,Wang, Xishi,Huang, Yongqing,Ren, Xiaomin.Optical absorption in InP/InGaAs/InP double-heterostructure nanopillar arrays for solar cells[J],APPLIED PHYSICS LETTERS,2014,104(6) 黄辉,唐祯安.An ultra-low detection-limit optofluidic biosensor based on Fabry-Pérot cavity[A],2014,11(1):1264-1268 Zhao, Danna,Huang, Hui,Wu, Haibo,Ren, Mingkun,Zhu, Huichao,Liu, Yan,Sun, Baojuan.Influence of Ni and Au/Ni catalysts on GaN nanowire growth[J],PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE,2013,210(12):2689-2692 Cao, Tun,Zhang, Lei,Xiao, Zai-peng,Huang, Hui.Enhancement and tunability of Fano resonance in symmetric multilayer metamaterials at optical regime[J],JOURNAL OF PHYSICS D-APPLIED PHYSICS,2013,46(39) Liu, Xueyu,Tang, Zhenan,Liu, Pengbo,Huang, Hui,Chen, Changxin,Jin, Tiening,Zhang, Yafei,Huang, Xianliang,Jin, Zhiyuan,Li, Xiaogan.Growth and large-scale assembly of InAs/InP core/shell nanowire: effect of shell thickness on electrical characteristics[J],NANOTECHNOLOGY,2013,24(24):245306 Qi, Zhenbin,Huang, Hui,Cao, Tun,Liu, Pengbo,Tang, Zhenan,Qu, Bo.Highly sensitive fiber pressure sensor based on off-center diaphragm reflection[J],APPLIED OPTICS,2013,52(18):4223-4227 Liu, Pengbo,Huang, Hui,Cao, Tun,Liu, Xueyu,Qi, Zhenbin,Tang, Zhenan,Zhang, Jinnan.An ultra-low detection-limit optofluidic biosensor with integrated dual-channel Fabry-Perot cavity[J],APPLIED PHYSICS LETTERS,2013,102(16) Guo, Jingwei,Huang, Hui,Zhang, Jianwei,Li, Xiaogan,Huang, Yongqing,Ren, Xiaomin,Ji, Zhuoyu,Liu, Ming.Morphological control of GaAs/InAs radial heterostructure nanowires: From cylindrical to coherent quantum dot structure[J],JOURNAL OF APPLIED PHYSICS,2013,113(11) 黄辉.An ultra-low detection-limit optofluidic biosensor with integrated dual-channel Fabry-Pérot cavity[J],Appl. Phys. Lett.,2013,102(2):163701-163701 黄辉,陈晓明,李晓干,唐祯安.Growth and large-scale assembly of InAs/InAs/InP core/shell nanowire: effect of shell thickness on electrical characteristics[J],Nanotechnology,2013,24(24):245-306 黄辉.Growth of high quality GaN nanowires by using Ga/GaCl3 sources[J],Physica E,2013,57(10):145-148 黄辉.Growth and large-scale assembly of InAs/InP core/shell nanowire: effect of shell thickness on electrical characteristic[J],Nanotechnology,2013,24(2):245306-245306 Guo, Jingwei,Huang, Hui,Ding, Yizheng,Ji, Zhuoyu,Liu, Ming,Ren, Xiaomin,Zhang, Xia,Huang, Yongqing.Growth of zinc blende GaAs/AlGaAs heterostructure nanowires on Si substrate by using AlGaAs buffer layers[J],JOURNAL OF CRYSTAL GROWTH,2012,359(1):30-34 Liu, Pengbo,Huang, Hui,Cao, Tun,Tang, Zhenan,Liu, Xueyu,Qi, Zhenbin,Ren, Mingkun,Wu, Haibo.An optofluidics biosensor consisted of high-finesse Fabry-Perot resonator and micro-fluidic channel[J],APPLIED PHYSICS LETTERS,2012,100(23) Yan, Xin,Huang, Yongqing,Zhang, Xia,Ren, Xiaomin,Huang, Hui,Guo, Jingwei,Guo, Xin,Liu, Minjia,Wang, Qi,Cai, Shiwei.Growth of InAs Quantum Dots on GaAs Nanowires by Metal Organic Chemical Vapor Deposition[J],NANO LETTERS,2011,11(9):3941-3945 Guo, Jingwei,Huang, Hui,Ren, Xiaomin,Yan, Xin,Cai, Shiwei,Wang, Wei,Wang, Qi,Huang, Yongqing,Zhang, Xia.Growth and optical properties of InP nanowires formed by Au-assisted metalorganic chemical vapor deposition: Effect of growth temperature[J],JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B,2011,29(3)

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