PDF《姓名 罗小兵 性别 保密》

姓名 罗小兵 照片 性别 保密 职称 教授(博导) 导师代码

2221 个人主页 www.

HUST-TPL.org 邮箱 Luoxb@hust.edu.cn 联系方式 027-87542618-612 通讯地址 武汉市华中科技大学能源与动力工程学院 个人资料简介 罗小兵,男,湖北武汉新洲区人,教授,博士导师,2009年教育部新世纪人才计 划获得者.本科生课程《工程传热学》主讲教授.2009指导本科生参加国家节能减排大赛 获得特等奖,2010年指导本科生参加国家半导体照明创新大赛获得学生创意奖.第一作者 或者通讯作者发表和接受论文85篇,其中SCI检索40篇,EI/ISTP 40篇.担任IEEE Tran sactions on Components, Packaging and Manufacturing Technology杂志Associa te Editor,第一发明人授权美国专利3项,中国发明专利5项.出版英文专著一部:LED Pa ckaging for Lighting Applications, John Wiley, USA, 2011.7.与产业界保持良好的 合作和交流关系. 教育及工作经历 09/91-07/95:华中理工大学动力工程系,工学学士学位;

09/95-07/98: 华中理工大学动力工程系,工学硕士学位;

09/98-07/02:清华大学工程力学系,工学博士学位;

08/2002-08/2005:韩国水原 三星电子综合技术研究院,工程师、高级工程师;

09/2005-11/2007:华中科技大学能源与动力工程学院,武汉光电国家实验室微光机电 系统研究部,副教授;

12/2007―目前: 华中科技大学能源与动力工程学院,武汉光电国家实验室微光机电系统 研究部,破格晋升正教授;

2011年3月-至今 华中科技大学能源与动力工程学院,工程热物理系(原教研室)主任 2011年6月至今 华中科技大学能源与动力工程学院 副院长(主管科研,产业和外事工 作) 研究方向 半导体照明(LED)/ 集成电路(IC)封装中的流动与传热及相关交叉问题,微流体器件 科研项目 1. 国家重点基础研究发展计划(973计划)课题,封装中热效应与热管理研究;

2. 教育部博士点基金,大功率LED芯片和封装的协同设计;

3. 湖北省杰出青年基金,大功率LED封装中的理论和工艺研究. 近年主要文章 (*代表通讯作者): LED/IC中流动与热问题: [1] Xiaobing Luo*, Xin Fu, Fei Chen, Huai Zheng, Phosphor self-heating in p hosphor converted light emitting diode packaging, International Journal of Hea t and Mass Transfer, Vol. 58, pp:276-281, 2013. [2] Chao Yuan, Xiaobing Luo*, A Unit Cell Approach to Compute Thermal co nductivity of uncured Silicone/Phosphor Composites, International Journal of H eat and Mass Transfer, Vol. 56, pp:206-213, 2013. [3] Xiaobing Luo*, Zhangming Mao, Janghui Yang, Sheng Liu, Engineering method for predicting junction temperatures of high-power light-emitting diod es, IET Optoelectronics, Vol.6(5): 230-236, 2012. [4] Xiaobing Luo*, Zhangming Mao, Thermal modeling and design for microc hannel cold plate with high temperature uniformity subjected to multiple heat s ources, Int. Commun. Heat Mass Transf. 39(6), pp. 781-785,2012. [5] Run Hu, Xiaobing Luo*, and Huai Zheng, Hotspot location shift in the hi gh power phosphor converted white light-emitting diode package, Japanese Jo urnal of Applied Physics 51, 09MK05, 2012. [6] Y.L.Liu, X.B.Luo*, W.Liu, Experimental Research On a Honeycomb Microc hannel Cooling System, IEEE Transactions on Components, Packaging and Ma nufacturing Technology, Vol.1(9), pp:1378-1386, 2011. [7] Xiaobing Luo*, Huai Zheng, Minglu Liu, Sheng Liu, Experimental Study o n Substrate with Hierarchical Nested Channels for Thermal Interface Resistance Control, Journal of Applied Physics, Vol.109, 103503, 2011. [8] Xiaobing Luo*, Zhangming Mao, JV Liu, Sheng Liu, An analytical thermal resistance model for calculating mean die temperature of a typical BGA packagi ng, Thermochim.Acta, Vol.

512 (1-2):208-216, 2011. [9] Xiaobing Luo*, Zhangming Mao, Sheng Liu, Analytical thermal resistance s model for eccentric heat source on rectangular plate with convective cooling at upper and lower surfaces, International Journal of Thermal Sciences, Vol.5 0:2198-2204, 2011. [10] Xiaobing Luo*, Yonglu Liu, Wei Liu, A honeycomb micro channel cooling system for electronics cooling, Heat Transfer Engineering, Vol. 32(7-8), 616-6 23, 2011. [11] Quan Chen, Xiaobing Luo*, Shenjun Zhou, Sheng Liu, Dynamic Junctio n temperature measurement for high power light emitting diodes, Review of Sc ientific Instrument, 82, 084904, 2011. [12] Ting Cheng, Xiaobing Luo*, Suyi Huang, Sheng Liu, Thermal analysis a nd optimization of multiple LED packaging based on a general analytical solutio n, International Journal of Thermal Sciences,

49 (2010):196-201. [13] Yanyan Xi, Xiaobing Luo*, Wenming Liu, Mingxiang Chen, Sheng Liu, St udy on localized induction heating for wafer level packaging, Science in China S eries E-Technological Sciences, Vol. 53(3): 800-806, 2010. [14] Xiaobing Luo*, Wei Xiong, Ting Cheng, Sheng Liu, Temperature estima tion of high power LED street lamp by a multi-chip analytical solution, IET Opt oelectronics, Vol. 3(5): 225-232, 2009. [15] Xiaobing Luo, Wei Chen, Renxia Sun, Sheng Liu*, Experimental and nu merical investigation of a microjet based cooling system for high power LEDs, Heat Transfer Engineering, Vol.

29 (9): 774-781, 2008. [16] S. Liu, J. H. Yang, Z. Y. Gan, X. B. Luo*, Structural optimization of a mic rojet based cooling system for high power LEDs, International Journal of Ther mal Sciences, Vol. 27: 1086-1095, 2008. [17] X. B. Luo, T. Cheng, W. Xiong, Z. Y. Gan, S. Liu*, Thermal analysis of a n 80W light-emitting diode street lamp, IET Optoelectronics, 1(5), p191-196, October, 2007. 代表性论文与专利 [18] X. B. Luo, S. Liu*, A microjet array cooling system for thermal managem ent of high-brightness LEDs, IEEE Transactions on Advanced Packaging,

30 (3), p475-484, August, 2007. [19] X. B. Luo, S. Liu*, X. P. Jiang, T, Cheng, Experiment and numerical stud y on a micro jet cooling solution for high power LEDs, Science in China Series E-Technological Sciences, 37(9), p1194-1204, August, 2007. [20] Xiao-Bing Luo*, Hye-Jung Cho, Valveless small gas pump, Nanoscale an d Microscale Thermophysical Engineering,

10 (2):83-94, 2006. LED/IC中的光学、工艺及其他交叉问题: [21] Run Hu, Yiman Wang, Yong Zou, Xing Chen, Sheng Liu, and Xiaobing L uo*, Study on phoshpor sedimentation effect in white LED packages by model ing multi-layer phosphors with the modified Kubelka-Munk theory, Journal of A pplied Physics, 113, 063108, 2013. [22] Run Hu, Shan Yu, Yong Zou, Huai Zheng, Fei Wang, Sheng Liu and Xiao bing Luo*, Near-/mid-field effect of color mixing for single phosphor-converte d light-emitting diode package, IEEE Photonics Technology Letters, vol. 25, n o. 3, pp.246-249, 2013. [23] Run Hu, Xiaobing Luo*, A model for calculating the bidirectional scatteri ng properties of phosphor layer in white LEDs, IEEE Journal of Lightwave Tech nology,Vol.30 (21), 3376-3379, 2012. [24] Bulong Wu, Huai Zheng, Xing Fu, and Xiaobing Luo*, Effect of Gold Wir e Bonding on Optical Performance of High Power Light-emitting Diode Packagin g, Journal of Ceramic Processing Research, Vol.13, 2012. [25] Run Hu, Xiaobing Luo*, Huai Zheng, Zong Qin, Zhiqiang Gan, Bulong W u, and Sheng Liu, Design of a novel freeform lens for LED uniform illumination and conformal phosphor coating, Optics Express,Vol. 20, No. 13, pp: 13727-1 3737, 2012. [26] Huai Zheng, Xiaobing Luo*, Run Hu, Bin Cao, Xing Fu, Yiman Wang, Co nformal phosphor coating using capillary microchannel for controlling color devi ation of phosphor-converted white light-emitting diodes, Optics Express, Vol. 20(5), pp:5092C5098, 2012. [27] Run Hu, Xiaobing Luo*, Han Feng, Sheng Liu, Effect of phosphor settlin g on the optical performance of phosphor converted LED, Journal of Luminesc ence, Vol. 132, pp:1252-1256, 2012. [28] Bulong Wu, Xiaobing Luo*, Huai Zheng, and Sheng Liu, Effect of gold w ire bonding process on angular correlated color temperature uniformity of whit e light-emitting diode, Optics Express, Vol.

19 (24), pp. 24115C24121, 2011. [29] Run Hu, X.B.Luo*, S.Liu, Study on the optical properties of conformal co ating LED by monte carlo simulation, IEEE Photonics Technology Letters, Vol. 23(22), pp: 1673-1675, 2011. [30] Xiaobing Luo*, Bulong Wu, Sheng Liu, Effects of Moist environments o n LED module reliability, IEEE Transactions on Device and Materials Reliability, Vol.

10 (2): 182-186, 2010. [31] Xuefang Wang, Chuan Liu, Zhuo Zhang, Sheng Liu, Xiaobing Luo*, A m icro-machined Pirani gauge for vacuum measurement of ultra-small sized vacu um packaging, Sens. Actuators A: Phys. Vol.161, pp: 108-113, 2010. 授权和申请专利: [1] X.B.Luo, H. J. Cho, Micro accelerometer,美国授权专利: US 7,080,553;

[2] X. B. Luo, H.J. Cho, J.Y. Lee, S.K.Kang, Apparatus for measuring methanol concentration, 美国授权专利: US 7,353,696;

[3] X. B. Luo, S.K.Kang, D.Y.Seung. Liquid-gas separator for direct liquid feed fuel cell, 美国授权专利: US 7700213;

[4] 罗小兵等, 合成喷射流角速度计,中国发明专利,ZL

01 1 29216.4;

[5] 罗小兵等, 双向合成喷射流陀螺仪, 中国发明专利, ZL

01 1 29222.9;

[6] 罗小兵等, 用于电子封装器件的微通道热沉系统,中国发明专利号, ZL 2010.1.01 46723.4;

[7] 罗小兵等,一种混合型垂直轴风力发电机,中国发明专利号:ZL 2010.1.017642 6.4;

[8] 罗小兵等,在LED封装中实现荧光粉远离涂覆的封装及应用,中国发明专利申请号:2 01210006102.5;

[9] 罗小兵等,一种自由曲面透镜及其实现保形涂覆的方法,中国发明专利申请号:2012 10013674.6;

[10] 罗小兵等,一种光型可控的双自由曲面透镜设计方法,中国发明专利申请号:20121 0013686.9 所获奖励

2012 年华中科技大学十佳青年教工 2011第二届华中科技大学师表奖

2011 IEEE Cisco Best Student Paper Award(指导老师和通讯作者) 2011.2 高光效低热阻大功率LED封装关键技术,广东省科学技术奖三等奖(排名第二) 2010年南海杯国家半导体照明创新大赛学生创意奖指导老师

2009 第二届国家大学生节能减排大赛特等奖指导老师

2008 IEEE NXP Best Paper Award,第一作者

2006 Philips Best Paper Award,第一作者 本实验室长期专注于LED/IC中的流动与传热理论研究,开展光学、工艺、材料和可靠性等方面的 交叉研究.在物理机制的理解基础上,实验室致力于热设计、封装器件和工艺等创新.现已经成 功开发:1)具有高光效、高可靠性的LED路灯;

2)能够实现生产一致性好,空间颜色均匀的LED 封装模块和支架;

3)具有高可靠性和良好性能的不同尺寸的主动散热用核心动力源器件-微泵 等.?欢迎访问实验室主页:www.HUST-TPL.org. 其他 ? 实验室在技术创新的同时也特别强调研究生的培养,现有在读博士生8名,在读硕士生6名,多名 研究生出国交流和学习.多年来,强调学生的基本科研素养,强调对现象背后机制的理解,强调 学生要具备良好的科研手段来阐述机制和发展创新技术的能力.? ? 实验室也特别注重学术交流,特别是国际学术交流,扩大影响.本着走出去,请进来的目标,多 次参加国际交流,邀请了国内外知名教授来访.除了参加会议和邀请讲学外,实验室还将在国际 具有影响力的期刊上发表文章作为扩大学术影响力的重要舞台.鼓励学生总结成果,提高交流能 力和发表能力,实现个人价值实现,实验室影响扩大,学校学科影响力增强的三方共赢. ? 实验室具备良好的硬件条件,拥有实验室用LED封装线,LED的各种光热检测设备,流体和热检测 设备. 欢迎专业基础好,英文扎实,有梦想,喜欢科研的同学加入本组. ? ........