何苗

作者: 时间:2015-10-25 点击数:

何苗
HE MIAO
教授
所属学院:
物理与光电工程学院
导师类别:
博士生导师、硕士生导师
科研方向:
LED封装,微纳光学器件
博士招生学院:
物理与光电工程学院
硕士招生学院:
物理与光电工程学院
个人简述
(限300字)
     1987毕业于吉林大学物理系,获理学学士学位;1990年毕业于中国科学院北京物理研究所凝聚态物理专业,获理学硕士学位;2001年毕业于华中科技大学“电子科学与技术”专业,获工学博士学位。
     1999.3-2002.1,任华中科技大学光电子工程系讲师;2002.1-2006.7,受“千禧年基金会”的资助,赴新加坡南洋理工大学做博士后, 从事光电子材料与器件的研究。      
     2006.9-2014.10,回国后相继任华南师范大学光电材料与技术研究所研究员、博士生导师和所长,从事半导体发光材料与器件的研究;2014.10至今,广东工业大学教授,从事LED制造技术开发。  
     迄今为止,他作为项目(或课题)负责人已成功主持科研项目17项(包括国家863高科技发展重大计划项目、国家自然科学基金等国家级项目5项,广东省科技厅产学研重点项目、广东省教育厅科技创新重点项目等省部级项目8项);获得“湖北省自然科学基金二等奖”和中国国防科学技术工业委员会“国防科学技术奖”三等奖各1次;在国内外学术期刊杂志上发表学术论文70余篇,申请国家发明专利11件。
     Email:herofate@126.com, Tel:18664658283
学科领域
科学学位
微电子学与固体电子学

专业学位
教育背景

1995/09 – 2001/01,华中科技大学,光电子工程系,工学博士

1987/09 – 1990/03,中国科学院,物理研究所,理学硕士

1983/09 – 1987/07,吉林大学,物理系,理学学士

工作经历

2014/10至今,广东工业大学,教授,博士生导师

2006/09–2014/10,华南师范大学,光电子材料与技术研究所,研究员,博士生导师

2002/01–2006/07,新加坡南洋理工大学,博士后

1999/03–2002/01,华中科技大学光电子工程系,讲师

1990/03–1993/11,武汉工程大学,助教

主要荣誉

[1] 湖北省自然科学基金二等奖 (2001):红外材料与器件的新原理新方法研究(第三获奖人)

[2] 中国国防科学技术工业委员会“国防科学技术奖”三等奖 (2001):红外焦平面与微透镜阵列集成技术 (第五获奖人,并被授予军功章)

主要论文

[1] Yan Lei, Zhiqiang Liu*,Miao He*,Zhi Li, Junjie Kang, Xiaoyan Yi,,Junxi Wang, and Jinmin Li, Performance Enhancement of Blue Light-Emitting Diodes by adjusting the p-Type Doped Last Barrier, Applied Physics A, 115: 1115, 2014

[2] Yun Li, You Gao, Miao He*, Jun Zhou*, Yan Lei, Li Zhang, Kebao Zhu and Yulong Chen, Effect of polarization-matched n-type AlGaInN electron-blocking layer on the optoelectronic properties of blue InGaN light-emitting diodes, IEEE/OSA Journal of Display Technology, 9 (4): 244-248, 2013

[3] Yongli Wang, Qiaoli Niu, Candong Hu, Wenjie Wang, Miao He*, Yong Zhang, Shuti Li, Lingzhi Zhao, Xin Wang, Jia Xu, Qiuxiang Zhu, and Sihai Chen, Ultrathin nickel oxide film as a hole buffer layer to enhance the optoelectronic performance of a polymer light-emitting diode, Optics Letters, 36 (8): 1521-1523, 2011

[4] Wenjie Wang, Miao He*, Yong Zhang, Shuti Li, Anhe He, Xin Wang, Candong Hu, Qiuxiang Zhu, Jun Zhou, and Guoxiang Ning, Surface plasmon interference on the surface of an aluminum-covered fiber core array for solgel fabrication of submicrometer gratings, Optics Letters, 35 (22): 3823-3825, 2010

[5] Anhe He, Miao He*, Shuti Li, Haiying Xing, Wenjie Wang, and Yang Li*, Develop-free solgel fabrication of low-loss embedded channel waveguide array, Journal of Lightwave Technology, 28 (5): 735, 2010

[6] He An-He, Zhang Yong, Zhu Xue-Hui, Chen Xian-Wen, Fan Guang-Han, and He Miao*, Improved light extraction of GaN-based light-emitting diodes with surface-textured indium tin oxide electrodes by nickel nanoparticle mask dry-etching, Chinese Physics B, 19 (6): 068101, 2010

[7] Wang Bo, Su Shi-Chen, He Miao*, Chen Hong*, Wu Wen-Bo, Zhang Wei-Wei, Wang Qiao, Chen Yu-Long, Gao You, Zhang Li, Zhu Ke-Bao, and Lei Yan, Fabrication of GaN-based LEDs with 22° undercut sidewalls by inductively coupled plasma reactive ion etching, Chinese Physics B, 22 (10): 106802, 2013

[8] Li Yun, Li Xiaochan, Zhang Tao, He Anhe, Hu Candong, Wang Xin, He Miao*, Zhang Yong, Niu Qiaoli, Zhao Lingzhi, Li Shuti, and Chen Xianwen, Enhancement of light output powers of GaN-based light emitting diodes with textured indium tin oxide transparent layer by using corrosive liquid, Science China, Physics, Mechanics & Astronomy, 54 (10): 1787, 2011

[9] Yan Lei, Jia Xu, Kebao Zhu, Miao He*, Jun Zhou*, You Gao, Li Zhang, and Yulong Chen, A GaN-based LED with perpendicular structure fabricated on a ZnO substrate by MOCVD, IEEE/OSA Journal of Display Technology, 9 (5): 377-381, 2013

[10] Ding Li-Zhen, Chen Hong*, He Miao*, Jiang Yang, Lu Tai-ping, Deng Zhen, Chen Fang-sheng, Yang Fan, Yang Qi, and Zhang Yu-li, Improved photoluminescence in InGaN/GaN strained quantum wells, Chinese Physics Letters, 31 (7): 076101, 2014

[11] Lu Ping-Yuan, Ma Zi-Guang, Su Shi-Chen, Zhang Li, Chen Hong*, Jia Hai-Qiang, Jiang Yang, Qian Wei-Ning, Wang Geng, Lu Tai-Ping, and He Miao*, Influence of Si doping on the structural and optical properties of InGaN epilayers, Chinese Physics B, 22 (10): 106803, 2013

[12] Qian Wei-Ning, Su Shi-Chen, Chen Hong*, Ma Zi-Guang, Zhu Ke-Bao, He Miao*, Lu Ping-Yuan, Wang Geng, Lu Tai-Ping, Du Chun-Hua, Wang Qiao, Wu Wen-Bo, and Zhang Wei-Wei, Effect of “continuous graded” InxGa1-xN buffer layer on InGaN epilayer grown by metalorganic chemical vapor deposition, Chinese Physics B, 22 (10): 106106, 2013

[13] Wen Xiao-Xia, Yang Xiao-Dong, He Miao*, Li Yang, Wang Geng, Lu Ping-Yuan, Qian Wei-Ning, Li Yun, Zhang Wei-Wei, Wu Wen-Bo, Chen Fang-Sheng, and Ding Li-Zhen, Improved efficiency droop in a GaN-based light-emitting diode with an AlInN electron-blocking layer, Chinese Physics Letters, 29 (9): 097304, 2012

[14] Geng Wang, Lu Wang, Hong Chen*, Wenxin Wang, Zhenwu Shi, Yulong Chen, Miao He*, Pingyuan Lu, and Weining Qian, MBE growth of high absorption mid-IR type-II InAs/GaSb superlattices, Chinese Science Bulletin, 59 (20): 2383, 2014

[15] Jia Xu, Yong Zhang, Xiaochan Li, Tao Zhang, Miao He*, Weining Qian, Yun Li, Xiaoxia Wen, Fangsheng Chen, Lizhen Ding and Bo Wang, Electrical bistabilities of write-once-read-many-times memory devices fabricated utilizing indium tin oxide nanoparticles embedded in a poly 4-vinyl phenol layer, Nanoscience and Nanotechnology Letters, 5(2):147-150, 2013

[16] Candong Hu, Xiaochan Li, Tao Zhang, Miao He*, Ning Zhu, Hui Zhang, Yun Li, Zhixiang Peng, Xiaoxia Wen, Yongli Wang, Geng Wang, and Xin Li, A hybrid plasmonic multimode interference splitter based on metal-gap-silicon waveguides, Nanoscience and Nanotechnology Letters, 5 (2):151-153, 2013

[17] Wang Xin, Li Xiaochan, Zhang Tao, Hu Candong, Zhu Qiuxiang, Chen Sihai, Li Yun, Xu Jia, He Miao*, Novel sol-gel material for fabrication of a long period waveguide grating filter as a precise thermometer, Science China, Physics, Mechanics & Astronomy, 54 (11): 1967, 2011

[18] Zhixiang Peng, Miao He*, Jun Zhou, Candong Hu, Yun Li, Xiaoxia Wen, Geng Wang, Weining Qian, Fangsheng Chen, Wenbo Wu, Weiwei Zhang, and Qiao Wang, A novel all-optical logic gate device based on a hybrid plasmonic waveguide on silicon-on-insulator chip, Nanoscience and Nanotechnology Letters, 5 (2): 264-266, 2013  

[19] Zhu Qiuxiang, Hu Candong, Wang Wenjie, He Miao*, Zhou Jun, Zhao Lingzhi, Peng Zhixiang, Li Shuti, Zhu Ling and Zhang Yong, Surface plasmon interference pattern on the surface of a silver-clad planar waveguide as a sub-micron lithography tool, Science China, Physics, Mechanics & Astronomy, 54 (2): 240, 2011

[20] 何安和,何苗*,朱学绘,陈献文,范广涵,章勇,Ni纳米粒子掩膜用于提高GaN基LED出光率的研究,光电子 • 激光,21 (7), 966-969, 2010

[21] Miao He, Jing Bu, Biow Hiem Ong, and Xiaocong Yuan, Two-microlens coupling scheme with revolved-hyperboloid solgel microlens arrays for high-power-efficiency optical coupling, J. Lightwave Technol., 2006, 24 (7): 2940-2945.  

[22] Miao He, Jing Bu, Xiaocong Yuan, Hanben Niu, and Xiang Peng, Self-processing solgel material for one-step fabrication of micrometer-period sinusoidal phase gratings using the Lloyd’s mirror scheme, Optics Letters, 2005, 30 (20): 2772-2774.  

[23] Miao He, Xiaocong Yuan, Jing Bu, and Tan Chee Wee, A high-corrugation-rate self-processing SiO2-ZrO2 hybrid sol-gel material for fabrication of microlens array, IEEE Photonics Technology Letters, 2005, 17 (6): 1223-1225.  

[24] Miao He, Xiaocong Yuan, Jing Bu, A novel sample-inverted reflow technique for fabrication of revolved-hyperboloid microlens array in hybrid sol-gel glass, Optics Letters, 2004, 29 (17): 2004-2006.  

[25] Miao He, Xiaocong Yuan, Jing Bu and Wai Chye Cheong, Fabrication of concave refractive microlens arrays in sol-gel glass using a simple proximity-effect-assisted reflow technique, Optics Letters, 2004, 29 (9): 1007-1009.  

[26] M. He, X. -C. Yuan, N. Q. Ngo, J. Bu and X. J. Yi, Molecular beam epitaxy growth of arsenic film and its semimetal-to-semiconductor transition, Applied Physics Letters, 2003, 83 (26): 5452-5454

[27] M. He, X. -C. Yuan, N. Q. Ngo, J. Bu, and S. H. Tao, Low-cost and efficient coupling technique using reflowed sol-gel microlens, Optics Express, 2003, 11 (14): 1621-1627

[28] M. He, X. -C. Yuan, N. Q. Ngo, J. Bu and V. Kudryashov, Simple reflow fabrication of a microlens array in sol-gel glass, Optics Letters, 2003, 28 (9): 731-733

[29] Miao He, Xiaocong Yuan, Jing Bu,Improved silica-zirconia sol synthesis for fabrication of a single-mode embedded dielectric channel waveguide with low transmission losses, Applied Optics,2007, 46 (3): 302-306.  

[30] Miao He, Xiaocong Yuan, Jing Bu and Wai Chye Cheong, Hybrid sample-inverted reflow and soft-lithography technique for fabrication of conicoid microlens array, Applied Optics, 2005, 44 (19): 4130-4135.  

[31] Miao He, Xiaocong Yuan, Jing Bu, Wai Chye Cheong and Ken Jin Moh, Reflowed sol-gel spherical microlens for high-efficiency optical coupling between a laser diode and a single mode fibre, Applied Optics, 2005, 44 (8): 1469-1473.  

[32] Miao He, Xiaocong Yuan, Ken Jin Moh, Jing Bu and Xinjian Yi, Monolithically integrated refractive microlens array to improve imaging quality of an infrared focal plane array, Optical Engineering, 2004, 43 (11): 2589-2594.  

[33] M. He, X. -C. Yuan, N. Q. Ngo, J. Bu and S. H. Tao, Single-step fabrication of microlens array in sol-gel material by direct laser writing and its application in optical coupling, Journal of Optics A: Pure and Applied Optics, 2004, 6 (1): 94-97.

[34] Miao He, Xiaocong Yuan, Nam Quoc Ngo, Wai Chye Cheong, and Jing Bu, Reflow technique for fabrication of an elliptical microlens array in sol-gel material, Applied Optics, 2003, 42 (36): 7174-7178

[35] M. He, X. -C. Yuan, N. Q. Ngo, W. C. Cheong, and J. Bu, Simple technique for fabrication of cylindrical sol-gel microlens array by reflowing technique, Optical Engineering, 2003, 42 (8): 2180-2181

[36] Miao He, Ben-yuan Gu, Effects of the localized state inside the barrier on resonant tunneling in double-barrier quantum wells, Physical Review B, 1990, 41 (5): 2906-2911

[37] X.-C. Yuan, W. X. Yu, M. He, J. Bu and W. C. Cheong, H. B. Niu and X. Peng, Soft-lithography-enabled fabrication of large numerical aperture refractive microlens array in hybrid SiO2–TiO2 sol-gel glass, Appl. Phys. Lett., 2005, 86, 14102

知识产权

[1] 国家发明专利授权,何安和,章勇,何苗,范广涵. 一种对发光二极管的p-GaN层或ITO层粗化的制备方法,2011.3.30,中国,200910193476.0

[2] 国家发明专利申请,严春伟,赵强,何苗. 一种低光衰冰蓝色发光二极管制作方法,申请日:2013.10.21,中国,申请号:201310499057.6

[3] 国家发明专利申请,何苗,张力,郑树文. 一种大功率LED封装结构及其制造方法,申请日:2014.5.21,中国,申请号:201410216860.9

[4] 国家发明专利申请,何苗,张力,郑树文,宿世臣. 一种LED荧光透明聚碳酸酯光栅及其制备方法,申请日:2014.12.31,中国,申请号:201410856047.8

[5] 国家发明专利申请,何苗,李欣. 一种LED外延结构,申请日:2014.5.21,中国,申请号:201410216860.9

[6] 国家发明专利申请,何苗,陈芳胜,郑树文. 一种蓝宝石衬底AlN外延层上高电子迁移率晶体管的生长方法,申请日:2014. 6.25,中国,申请号:201410295141.0

[7] 国家发明专利申请,何苗,陈虞龙,王禄,石震武,孙庆灵,高优. 一种在InP衬底上外延生长II型GaSb/InGaAs量子点的方法,申请日:2014.2.27,中国,申请号:201410069486.4

[8] 国家发明专利申请,何苗,张加勤,曹国飞. 一种测量微纳器件延迟特性的测量装置和测量方法,申请日:2014.6.4,中国,申请号:201410245661.0

[9] 国家发明专利申请,何苗,张加勤,郑树文. 一种用于测量飞秒脉冲时域宽度的装置和方法,申请日:2014. 7.1,中国,申请号:201410312390.6

[10] 国家发明专利申请,何苗,高优,陈虞龙. 一种智能节能喷水系统,,申请日:2014.2.27,中国,申请号:201410069552.8

[11] 国家发明专利申请,宿世臣,张红艳,赵灵智,何苗. 一种ZnO量子阱微腔结构激子极化激元激光器件,申请日:2014.6.26,中国,申请号:201410291731.6

科研项目

[1] 国家高技术研究发展计划(863计划)新材料领域重大项目“高效半导体照明关键材料技术研发(三期)”中的“大注入电流密度薄膜结构GaN基LED关键制造技术及检测技术研发”课题(2013.1-2015.12,1400万元,其中何苗课题份额:278万元),批准号:2013AA03A101,课题负责人:何苗,在研

[2] 广东省科技厅省部产学研合作专项资金重点项目(2012.12-2014.11,80万元):高效、低成本室内照明LED关键材料及技术的研发及产业化, 批准号:2012B091000169,项目负责人:何苗,在研

[3] 广东省教育厅科技创新重点项目(2012.12-2014.12,30万元):银包覆氧化锌纳米棒波导的表面等离激元干涉用于纳米级光刻的研究,批准号:2012CXZD0017,项目负责人:何苗,在研

[4] 广东省教育部科技部产学研结合项目(科技创新平台建设专项)(2012.4-2015.3,60万元,其中何苗课题份额:18万元):木林森LED封装产学研合作科技创新平台,批准号:2012B090600038,合作单位项目负责人:何苗,在研

[5] 高等学校博士学科点专项科研基金博导类资助课题(2014.1-2016.12,12万):GaN基LED在大电流下的光效衰减机制及其抑制研究,批准号:20134407110008,项目负责人:何苗,在研

[6] 中山市科技计划项目(科技强企支撑计划)(2013.8-2016.10,100万元,其中何苗课题份额:40万元):高光效高耐候低热阻的LED核心封装技术攻关及产业化,批准号:2013B3FC0003,合作单位项目负责人:何苗,在研

[7] 国家自然科学基金项目(2011.1-2013.12,48万元):光泵浦有机半导体连续激光器的微型化制作研究,批准号:61078046,项目负责人:何苗,结题

[8] 广东省科技计划项目 (2011.1-2012.12,8万元):新原理DVD激光头研制, 批准号:2010B010600030,项目负责人:何苗,结题

[9] 广东省自然科学基金项目(2010.10-2012.9,5万元):双曲面微透镜阵列用于单原子囚禁与操控的研究,批准号:10151063101000009,项目负责人:何苗,结题

[10] 广东省科技计划项目(2008.9-2010.8,8万元) :基于ZnO衬底的GaN基LED研制, 批准号:2008B010200004,项目负责人:何苗,结题

[11] 广东省自然科学基金项目(2008.10-2010.9,5万元):微透镜技术用于光泵浦有机半导体连续激光器研制,批准号:8251063101000007,项目负责人:何苗,结题

[12] 国家自然科学基金项目(2002.1-2004.12,20万元):亚波长结构及应用基础研究,批准号:60177011,项目负责人:何苗,结题,获得优评分

[13] 国家自然科学基金项目(2001.1-2003.12,17万元):微电子学、微光学单片成技术研究,批准号:60086003,项目负责人:何苗,结题,获得优评分

[14] 国防科技重点实验室基金试点项目(1999.9-2001.9,18万元):PtSi红外CCD/微透镜阵列单片集成技术研究,项目编号:99JS11.2.1.JW0505,项目负责人:何苗,结题

[15] 武器装备预研基金项目(2002.1-2003.12,10万元):红外隐身亚波长结构研究,批准号:51410020101JW051,项目负责人:何苗,结题,获得优评分

[16] 激光技术国家重点实验室研究基金项目(2001-2003,3万元):衍射光学阵列器件的研究。(项目负责人:何苗,结题)

[17] 华中科技大学科学研究基金重点项目(2000-2003,3万元):VOx非制冷红外焦平面阵列研究,项目负责人:何苗,结题

教学活动

主讲过的课程有:《普通物理》,《C++语言与面向对象的程序设计》,《光子晶体》,《光学与光子学基础》,《英文科技论文写作与投稿》。先后指导过100多名光电技术专业本科生的毕业设计。目前,先后有39名硕士研究生和1名博士生在我的指导下攻读硕士和博士学位,其中有24名硕士研究生已毕业并获得硕士学位。

地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

电话:020-39322722    邮箱:yzb@gdut.edu.cn