黃輝 大連理工大學電子科學與技術學院教授,博士生導師。1974年出生,福建福州人。自1998年開始,一直從事光電子器件和光纖通信方面的研究。2002年在北京郵電大學獲電磁場與微波技術專業博士學位;同年留校任教,2005年入選教育部新世紀優秀人才計畫,2006年入選北京市科技新星計畫,2008年破格晉升為教授;2011年引進到大連理工大學。 有1項成果入選2006年度“中國高等學校十大科技進展”,並獲“北京市科技獎二等獎”(排名第2)。在Nano Lett., Appl. Phys. Lett.、J. Appl. Phys.、IEEE Photon. Tech. Lett.等國際知名刊物上發表SCI檢索論文四十餘篇,獲發明專利9項,新申請發明專利3項。 中國光學學會高級會員,IEEE member,北京郵電大學兼職教授。
基本介紹
- 中文名:黃輝
- 國籍:中國
- 民族:漢族
- 出生日期:1974年
- 職業:教授
- 畢業院校:北京郵電大學
- 籍貫:福建福州
- 學歷:教授,博士生導師
人物簡介,社會兼職,研究領域,碩博研究方向,代表性文章,工作成果,
人物簡介
2001年至2011年間,在北京郵電大學 信息光子學與光通信國家重點實驗室 任教;2011年至今,在大連理工大學 電子科學與技術學院 任教。致力於新型光電子器件、光電子集成和半導體材料外延生長(MOCVD生長)的研究工作。作為課題負責人承擔了2項國家“863”計畫項目和2項國家自然基金項目,並作為骨幹人員參與了國家“973”計畫和國家自然基金重大計畫等項目。2005年獲得教育部“新世紀人才支持計畫”資助,2006年獲得北京市“科技新星計畫”的資助。相關成果被評為“2006年度中國高等學校十大科技進展”和“北京市科技獎二等獎”。以第一作者在Nano Lett.,Appl. Phys. Lett.,IEEE Photon. Tech. Lett.,Electron. Lett.,J. Vac. Sci. Technol. B,Appl. Opt.,OFC等刊物上發表論文四十餘篇,已獲發明專利十項。研究方向:光電子器件與感測器。
社會兼職
中國光學學會高級會員,IEEE member,北京郵電大學兼職教授。
研究領域
致力於半導體光電子器件以及光電子集成方面的研究。在材料方面,從事矽基III-V族納米線的MOCVD外延生長研究,及微納尺度半導體材料的可控生長技術研究。在器件方面,主要從事綠色能源光電器件(基於半導體納米線的新型光電器件,如太陽能電池、LED、感測器、超級電容等)和光學微流控生化感測器的研究。
器件方面的成果有:基於微空氣隙的諧振腔光電探測器;高速、高靈敏度、窄線寬、可調諧的“一鏡斜置三鏡腔”光電探測器;高精度光學微流控生化感測器;光纖感測器;單納米線電晶體和感測器。
材料工藝方面的成果有:在半導體外延層上製備傾角可控、表面平坦的楔型結構;基於表面化學處理的GaAs/InP、InP/Si 和Si/Si 低溫晶片鍵合; GaAs/InP和Si/GaAs異質外延生長(MOCVD生長);以及在Si襯底上生長III-V族半導體單晶納米線等。
碩博研究方向
集成微納感測器及專用感測晶片(基於半導體納米線和光學微流控晶片),光纖感測器,用於檢測壓力、應變、加速度、以及氣體和液體。也歡迎其他專業背景的學生報考,如 生物,材料,醫學,化學等。
出版著作和論文
代表性文章
1.Min Bai, Hui Huang*, Yan Yu, Jian Hao, Ji Zhang, Jianchao Fan, and Jun Yan, “Trace analysis of oil-in-water by using visible LED and metal waveguide capillary”, Optics Express, 24, 14538-14545 (2016).
2.Min Bai, Hui Huang*, Jian Hao, Ji Zhang, Haibo Wu, Bo Qu, “A compact photometer based on metal-waveguide-capillary: application to detecting glucose of nanomolar concentration”, Scientific Reports, 5, 10476 (2015).
3.Haibo Wu, Hui Huang*, Min Bai, Pengbo Liu, Ming Chao, Jie Hu, Jian Hao, and Tun Cao, "An ultra-low detection-limit optofluidic biosensor based on all glass Fabry-Perot cavity", Opt. Express, 22, 31977-31983 (2014).
4.Pengbo Liu, Hui Huang*, Xueyu Liu, Min Bai, Danna Zhao, Zhenan Tang, Xianliang Huang, Ji-Yeun Kim, and Jinwei Guo, “Core-shell nanowire diode based on strain-engineered bandgap”, Phys. Status Solidi A, 617–622 (2015). (封面報導)
5.P. Liu, Hui Huang*, T. Cao, X. Liu, Z. Qi, Z. Tang, and J. Zhang, "An ultra-low detection-limit optofluidic biosensor with integrated dual-channel Fabry-Pérot cavity", Appl. Phys. Lett., 102, 163701 (2013).
6.Zhenbin Qi, Hui Huang *, Tun Cao, Pengbo Liu, Zhenan Tang, Bo Qu, “highly sensitive fiber pressure sensor based on off-center diaphragm reflection”, Applied Optics, vol.52, no.18, pp.4223-4227, 2013.
7.Jingwei Guo, Hui Huang*, Jianwei Zhang, Xiaogan Li, Yongqing Huang, Xiaomin Ren, Zhuoyu Ji, and Ming Liu, "Morphological control of GaAs/InAs radial heterostructure nanowires: from cylindrical to coherent quantum dot structure ", Journal of Applied Physics, 113 , 114301 (2013).
8.Xueyu Liu, Pengbo Liu, Hui Huang*, Changxin Chen, Tiening Jin, Yafei Zhang, Xianliang Huang, Zhiyuan Jin, Xiaogan Li and Zhenan Tang, “Growth and large-scale assembly of InAs/InP core/shell nanowire: effect of shell thickness on electrical characteristic”, Nanotechnology, 24(2013) 245306.
9.Danna Zhao, Hui Huang*, Haibo Wu, Mingkun Ren, Huichao Zhu, Yan Liu, and Baojuan Sun, “Influence of Ni and Au/Ni catalysts on GaN nanowire growth”, Phys. Status Solidi A, vol.210, no.12, pp.2689–2692 (2013).
10.Mingkun Ren, Hui Huang*, Haibo Wu, Danna Zhao, Huichao Zhu, Yan Liu, and Baojuan Sun, “Growth of high quality GaN nanowires by using Ga/GaCl3 sources”, Physica E, 57 (2014) 145–148.
11.Pengbo Liu, Hui Huang*, Tun Cao, Zhenan Tang, Xueyu Liu, Zhenbin Qi, Mingkun Ren, and Haibo Wu, "An optofluidics biosensor consisted of high-finesse Fabry-Pérot resonator and micro-fluidic channel", Appl. Phys. Lett., 100, 233705 (2012)
12.Jingwei Guo, Hui Huang*, Yizheng Ding, Zhuoyu Ji, Ming Liu, Xiaomin Ren, Xia Zhang, and Yongqing Huang, “Growth of zinc blende GaAs/AlGaAs heterostructure nanowires on Si substrate by using AlGaAs buffer layers”, Journal of Crystal Growth 359 (2012) 30–34.
13.Hui Huang, Xiaomin Ren, Xian Ye, Jingwei Guo, Qi Wang, Xia Zhang, Shiwei Cai and Yongqing Huang, “Control of the crystal structure of InAs nanowires by tuning contributions of adatom diffusion”, Nanotechnology, vol.21, pp.475602, 2010.
14.Hui Huang, Xiaomin Ren, Xian Ye, Jingwei Guo, Qi Wang, Yisu Yang, Shiwei Cai and Yongqing Huang, “Growth of stacking-faults-Free zinc blende GaAs nanowires on Si substrate by using AlGaAs/GaAs buffer layers”, Nano Letters, vol.10, pp.64–68, 2010.
15.Xin Yan, Xia Zhang, Xiaomin Ren, Hui Huang, Jingwei Guo, Xin Guo, Minjia Liu, Qi Wang, Shiwei Cai, and Yongqing Huang, “Growth of InAs quantum dots on GaAs nanowires by metal organic chemical vapor deposition”, Nano Lett., 11, 3941–3945, 2011.
16.葉顯,黃輝*,任曉敏,郭經緯,黃永清,王琦,張霞,“InAs/GaAs和InAs/InxGa1-xAs/GaAs納米線異質結構的生長研究”,物理學報,60(3),036103,2011。
17.X. Ren, H. Huang, V. G. Dubrovskii, N. V. Sibirev, M. V. Nazarenk, A. D. Bolshakov, X. Ye, Q. Wang, Y. Huang, X. Zhang, J. Guo and X. Liu, “Experimental and theoretical investigations on the phase purity of GaAs zincblende nanowires”, Semicond. Sci. Technol., vol.26, pp.014034, 2011.
18.J. Guo, Hui Huang, Xiaomin Ren, Xin Yan, S. Cai, Wei Wang, Qi Wang, Y. Huang, and Xia Zhang, “Growth and optical properties of InP nanowires formed by Au-assisted metalorganic chemical vapor deposition: Effect of growth temperature”, J. Vac. Sci. Technol. B, vol.29, no.3, pp.030603, 2011.
19.Guo Jing-Wei, Huang Hui, Ren Xiao-Min, Yan Xin, Cai Shi-Wei, Guo Xin, Huang Yong-Qing, Wang Qi, Zhang Xia, Wang Wei. “Growth of zinc blende GaAs/AlGaAs radial heterostructure nanowires by a two-temperature process”. Chin. Phys. Lett., 28 (3), 036101, 2011.
20.Ye Xian, Huang Hui, Ren Xiaomin, Yang Yisu, Guo Jingwei, Huang Yongqing, Wang Qi, “Growth of pure zinc blende GaAs nanowires: effect of size and density of Au nanoparticles”, Chin. Phys. Lett., vol. 27, p046101, 2010.
21.Li Ran, Huang Hui*, Ren Xiaomin, Guo Jingwei, Liu Xiaolong, Huang Yongqing and Cai Shiwei, “Growth of pure zinc blende p-type GaAs nanowires by metal-organic chemical vapor deposition”, Journal of Semiconductors, 32(5), 053003, 2011.
22.Hui Huang, Xiaomin Ren, Jihe Lv, Qi Wang, Hailan Song, Shiwei Cai, Yongqing Huang, and Bo Qu, “Crack-free GaAs epitaxy on Si by using midpatterned growth: Application to Si-based wavelength-selective photodetector”, Journal of Applied Physics, vol.104, pp.113114, 2008.
23.Hui Huang, Xiaomin Ren, Wenjuan Wang, Hailan Song, Qi Wang, Shiwei Cai, and Yongqing Huang, “Low temperature InP/Si wafer bonding using boride treated surface”, Applied Physics Letters, 90 (16), pp.161102(1-3), 2007.
24.Jihe Lv, Hui Huang, Yongqing Huang, Xiaomin Ren, Ang Miao, Yiqun Li, Hongwei Du, Qi Wang, and Shiwei Cai, “A monothically integrated dual-wavelength tunable photodetector based on a taper GaAs substrate”, IEEE Transactions on Electron Devices, vol.55, pp.322- 328, 2008.
25.Jihe Lv, Hui Huang, Xiaomin Ren, Ang Miao, Yiqun Li, Hailan Song, Qi Wang, Yongqing Huang, and Shiwei Cai, “Monothically integrated long- wavelength tunable photodetector”, IEEE Journal of Lightwave Technology, vol. 26, pp.338-342, 2008.
26.Huang Hui, Ren Xiaomin, Wang Xingyan, Gui Hailin, Wang Wenjuan, Miao Ang, Li Yiqun, Wang Qi, and Huang Yongqing, “Theory and experiments of a tunable wavelength-selective photodetector based on a taper cavity”, Applied Optics, vol.45, no.33, pp.8448-8453, 2006.
27.Huang Hui, Wang Xingyan, Ren Xiaomin, Wang Qi, and Huang Yongqing, “Selective wet etching of InGaAs/InGaAsP in HCl/HF/CrO3 solution: Application to vertical taper structures in integrated optoelectronic devices”, Journal of Vacuum Science and Technology B, vol.23, no.4, pp.1650-1653, 2005.
28.Huang Hui, Ren Xiaomin, Wang Xinyan, Wang Qi, and Huang Yongqing, “Low-temperature InP/GaAs wafer bonding using sulfide-treated surface”, Applied Physics Letters, vol.88, no.6, pp.061104, 2006.
29.Huang Hui, Ren Xiaomin, Wang Xingyan, Cui Hailin, Wang Wenjuan, Wang Qi, and Huang Yongqing, “An ultra-narrow spectral linewidth photodetector operating at a long wavelength”, Semiconductor Science and Technology, vol.21, no.12, pp.1724-1727, 2006.
30.Huang Hui, Huang Yongqing, Wang Xingyan, Wang Qi, and Ren Xiaomin, “Long Wavelength Resonant Cavity Photodetector Based on InP/Air-Gap Bragg Reflectors”, IEEE Photonics Technology Letters, vol.16, no.1, pp.245-247, 2004.
31.Huang Hui, Huang Yongqing, and Ren Xiaomin, “Ultra-narrow spectral linewidth photodetector based on taper cavity”, Electronics Letters, vol.39, no.1, pp.113-115, 2003.
32.Huang Hui, Huang Yongqing, and Ren Xiaomin, “Selective wet etching of AlGaAs in HF/CrO3 solutions: Application to vertical taper structures in integrated optoelectronic devices”, Journal of Vacuum Science and Technology B, vol.20, no.3, pp.1107-1110, 2002.
33.Huang Hui, Zhang Ruikang, Wang Qi, Zhong Yuan, Wang Xingyan, Lei Lei, Xia Yuehui, Liu Liyi, Huang Yongqing, and Ren Xiaomin, “Wavelength-selective photodetector with integrated vertical taper structure”, Conference on Optical Fiber Communication (OFC), Californian, vol.70, pp.714-715, 2002.
34.Wenjuan Wang, Xiaomin Ren, Hui Huang, Xingyan Wang, Hailin Cui, Ang Miao, Yiqun Li, and Yongqing Huang, “Tunable photodetector based on GaAs/InP wafer bonding”, IEEE Electron Device Letters, vol.27, no.10, pp.827-829, 2006.
Xiaofeng Duan, Yongqing Huang, Xiaomin Ren, Hui Huang, Sanxian Xie, Qi Wang and Shiwei Cai, “Reconfigurable multi-channel WDM drop module using a tunable wavelength-selective photodetector array”, Optics Express, vol.18, pp.5879-5889, 2010.
工作成果
2005年獲教育部“新世紀人才支持計畫”資助;
2006年獲北京市“科技新星計畫” 的資助;
2006年度中國高等學校十大科技進展(本人第二完成人);
2006北京市科技獎二等獎(本人第二完成人)。
