陶光明

编辑:美高梅游戏官网 时间:2018-08-31

陶光明

职称:教授、先进功能纤维实验室负责人(CAFF, PI)

专业方向:特种光纤、先进功能纤维及智能织物

Email:TAO@hust.edu.cn

电话/传真:027-87543263

办公室:美高梅游戏官网娱乐南五楼118室

FA96


PI个人概况:陶光明,美高梅游戏官网娱乐武汉光电国家研究中心和美高梅游戏官网娱乐教授、博士生导师。陶教授一直致力于先进功能纤维领域的跨学科研究工作,先后在Nature, Proc. Natl. Acad. Sci., Mater. Today, Adv. Opt. Photon., Adv. Fiber Mater.等国际学术杂志发表论文50余篇,拥有已授权专利10项(世界PCT 3项/美国4项/日本1项/以色列1项/中国1项)、申请专利近40项(世界PCT 1项/美国1项/欧洲1项/中国30余项)。陶教授40余次受邀在国际顶级专业会议OSA-CLEO、OSA-FiO、ACerS-GOMD、SPIE-DSS等国际学术会议、Corning等著名企业、CNRS、UIUC等著名科研单位上发表专题邀请报告/大会报告,并数次组织MRS等国际顶尖会议的相关分论坛并担任主席,获得过包括美国光学学会、国际光学工程学会、美国陶瓷学会等学会的学术奖励,以及“2013年度国家优秀自费留学生奖学金之特别优秀奖”(该年度全球仅6名中国留学生获”特别优秀奖”)、中国科协发布的2018年“创世技”颠覆性创新榜50强等,所提议“红外传感技术”项目入选中国科协“2019年重大科知识题和重大工程技术难题”。自2017年底回国工作后,陶教授作为项目负责人承担包括基础研究和应用开发等各类竞争性科研经费超过2700万元。陶教授为国家自然科学基金委面上项目、之江实验室重大科研项目和陈嘉庚青年奖等科技项目担任评审专家、同时兼任中国材料研究学会纤维材料改性与复合技术分会理事会副主任、湖北省硅酸盐学会理事、《激光与光电子学进展》期刊第九届编委成员、Advanced Fiber Materials杂志副主编和“武汉纤维谷”专家委员会成员等。

研究方向:

1)特种材料光纤、聚合物特种光纤、柔性微创激光手术刀技术;

2)基于功能纤维的智能织物式柔性可穿戴器件;

3)基于多材料纤维的微纳米机器人及其阵列操控技术。

PI Bio:Guangming Tao is a Professor at Wuhan National Laboratory for Optoelectronics and the School of Optical and Electronic Information at Huazhong University of Science and Technology (HUST). He is the Director of Center of Advanced Functional Fibers (CAFF) and the director of Man-Machine Lab (2M lab) at HUST. He received his Ph.D. degree (2014) in optics from the University of Central Florida. He was a Research Scientist/Sr. Research Scientist at The College of Optics & Photonics (CREOL), University of Central Florida from 2014 to 2017. Dr. Tao has published about 40 scientific papers, has given in excess of 45 invited lectures/colloquia or keynote talk, and has coorganized more than 10 national and international conferences and symposia, including Symposium SM2 (Advanced multifunctional fibers and textiles) at 2017 Spring MRS Meeting, Symposium J (Multifunctional and multimaterial fibers) at 2017 International Conference on Advanced Fibers and Polymer Materials, etc. He has years of research experience in optical sciences and engineering in academia, industry, and government institutes with expertise in the areas of functional fibers, smart fabric, man-machine interactions, infrared optical fibers and in-fiber structured particles generation.

部分获奖或荣誉:

国家优秀自费留学生奖之特别优秀奖(2013)

招生信息:

先进功能纤维实验室(Center for Advanced Functional Fibers, CAFF)主要致力于基于纤维的微纳米制造技术、特种光纤、以及先进功能纤维和织物等以一维功能器件为中心的多学科交叉的应用科学研究。将具有不同的电、光、热和机械性能的材料集成到具有复杂结构和多种功能的单个光纤中,为在多个领域中扩展光纤的应用提供了新的机会。材料科学在各个领域的蓬勃发展应该在与纤维结合时发挥更强大的影响。光纤技术在光子学、传感、纳米加工和能量领域与传统纺织品制造技术的结合将打开许多的可能性。纤维的未来应该更加无缝地融入大家的日常生活。课题组目前正持续发展中,逐步形成一支包含博士生、硕士生、本科生、技术工程师、专职科研秘书等在内的完整科研梯队。队伍年轻且专业配置合理(光电、材料、机械自动化、电子信息、物理等背景均有成员参与)。实验室面向学术前沿和国家需求,交叉融合多学科常识。氛围自由,实行平行管理方式,正在搭建具有国际一流水准的先进功能纤维制造科研平台。非学术性的工作交由专职科研秘书负责,坚持“人是最重要的”原则。欢迎不同背景(电子信息、物理\光电、纳米、玻璃陶瓷\纤维\能源材料等)的优秀本科生申请保送硕/博研究生,热烈欢迎博士后、讲师、副教授、教授等研究人员加入。

2167D

岗位要求及待遇

A.讲师、副教授/副研究员、教授/研究员等教师岗的应聘条件及待遇:

1)光电、材料、电子信息或者是纤维器件背景,具有创新精神和交叉学科合作能力;

2)能够承担学院的教学任务,符合学科和学校人才招聘的相关要求;

3)相关待遇根据学校规定实行,额外根据科研表现分配团队绩效。

B.博士后的招聘要求及待遇:

1)材料、光学、电子领域,尤其是特种光纤、高分子材料加工、光电技术和纳米技术等背景已毕业或即将毕业的博士;

2)具有独立从事科学研究的能力和较好的英语能力,责任心强,主动性强,具有创新性构想和战略性思维,善于交流并从中互相学习,具有独立科研能力和团队合作精神;

3)认可“面向世界科技前沿、面向国家重大需求、面向国民经济主战场”的不同科研类型对于国家的科技发展都很重要的基本观点;鼓励参与产业化关键技术研发,支撑参加国际会议等学术交流活动;支撑作为项目负责人申请各类基金和研究项目;

4)基础年薪23-30万,聘用期限一般为2-3年。聘期内待遇福利等参照美高梅游戏官网娱乐正式职工,享受同岗位教师子女入学、入托,医疗保险以及其他福利待遇。提供博后公寓租住,对未能入住者,给予1000元/月的租房补助;额外根据科研表现分配团队当年的绩效;满足学校博士后引进的基本要求。

C.针对硕士/博士研究生的招收要求及待遇:

1)有好奇心,主动性强,对工作负责,有独立思考的能力,尤其欢迎有未来在科技领域发展的规划的同学。鼓励学生积极参加国内国际学术会议,优秀者可推荐至国际顶级实验室访问交流学习;

2)硕士博士研究生的生活补贴等待遇优异。为毕业时掌握一技之长的同学可推荐优异工作。

D.科研助理/工艺工程师等的招聘要求及待遇:

1)材料、电子信息、机械等专业的教育背景为佳,本科学历,年龄不限;

2)动手能力强,团队意识强,责任心强;

3)根据候选人具体情况提供不同的待遇,不低于本地同等学历同等资历工资待遇,提供五险一金以及年终奖、暑假高温奖等;

4)支撑优异进一步深造的候选人继续攻读学位或参与团队的产业化项目。

代表性论文:

33) M. Du, L. Huang, J. Zheng, Y. Xi, Y. Dai, W. Zhang, C. Ren, W. Yan,G. Tao, J. Qiu, K-F. So, S. Zhou, “Flexible Fibre Probe for Efficient Neural Stimulation and Detection,” submitted (2019).

32) L. Yang, H. Liu, S. Ding, J. Wu, Z. Wang*, M. Tian*,G. Tao*, "Superabsorbent Textile Towards Comfortable Disposable Medical Protective Clothing," submitted (2020) [*通信编辑]

31) W. Yan, C. Dong, Y. X, S. Jiang, A. Leber, G. Loke, W. Xu, C. Hou, S. Zhou, M. Chen, R. Hu, P. Shum, L. Wei, X. Jia, F. Sorin, X. Tao,G. Tao*,“Thermally Drawn Advanced Functional Fibers: New Frontier of Flexible Electronics,”Mater. Today, in press (2020). [*通信编辑]

30) R. Hu*, J. Song, Y. Liu, W. Xi, Y. Zhao, X. Yu, Q. Cheng,G. Tao*, X Luo*, “Machine Learning-optimized Tamm Emitter for High-performance Thermophotovoltaic System with Detailed Balance Analysis,”Nano Energy, 72,104687 (2020).[*通信编辑]

29) K.He, Y. Hou, C. Yi, N. Li, F. Sui, B. Yang, G. Gu, W. Li, Z. Wang,G. Tao*, L. Wei, C. Yang*, M. Chen, "Tunable Pressure Sensors with Ultrahigh Sensitivity and Wide Linear Response for Artificial Reflex Arc,"Nano Energy, in press (2020).[*通信编辑]

28) Y. Lian, H. Yu*, M. Wang, X. Yang, Z. Li, F. Yang, Y. Wang, H. Tai, Y. Liao, J. Wu, X. Wang, Y. Jiang, andG. Tao*, “Multifunctional Wearable E-textile via Integrated Nanowirecoated Fabrics,”J. Mater. Chem. Cin press (2020).[*通信编辑]

27) H. Zhao, R. Hu, M. Tian, X. Zhang, X. Qi, Q. Fan,G. Tao*, L. Qu*, “Soft Bimorph Actuator with Real-time Multiplexing Motion Perception,” submitted (2019). [*通信编辑]

26) M. Chen, Y. Jiang, N. Guizani, J. Zhou,G. Tao,J. Yin and K. Hwang, “Living with S-Fabric: Smart Living Powered by Sensing Fabric and Deep Analytics”,IEEE Network, in press (2019).

25) Z. Du, J. Ai, X. Zhang, Z. Ma, D. Chen,G. Tao, B. Su, “Stretchable Magnetoelectric Fibers for Self-powered Tactile Sensing,”Applied Mater. Todayin press (2020).

24) J. Wu, R. Hu, S. Zeng, W. Xi, S. Huang, J. Deng, andG. Tao*, “Flexible, Robust, Microstructured Biomaterial Colored Textiles for Personal Thermoregulation,”ACS Appl. Mater. Interfacesin press (2020). [*通信编辑]

23) R. Hu, S. Shin, Y. Liu, S. Huang, X. Ren, W. Shu, J. Cheng,G. Tao, W. Xu, R. Chen, X. Luo, “Emerging materials and strategies for personal thermal management,”Adv. Energy Mater.in press (2020).

22) J. Yang. J. Zhou,G. Tao*, M. Alrashoud, K. N. Al Mutib and Al-Hammadi, "Wearable 3.0: From smart clothing to wearable affective robot,"IEEE Network33, 8-14 (2019) [*通信编辑]

21)G. Tao?, Shi Chen?, S. J. Pandey, F. A. Tan, H. Ebendorff-Heidepriem, M. Molinari, A. F. Abouraddy, and R. M. Gaume, "A carbon-nanofiber glass composite with high electrical conductivity,"I. J. Appl. Glass Sciencein press (2020).doi.org/10.1111/ijag.14607 [?共同第一编辑]

20) B.Xu, S. Ma, Y. Xiang, J. Zhang, M. Zhu, L. Wei*,G. Tao*and D. Deng*, "In-fiber structured particles and filament arrays froom the perspective of fluid instabilities(Cover Article),"Adv. Fiber Mater.2, 1–12(2020). [*通信编辑]

19) M Zhu, T Kikutani, T Liu, S Ramakrishna,G Tao,“Fiber changes our life,”Adv. Fiber Mater.1, 1–2(2019).

18) H Lang, Y Peng, G Shao, K Zou,G Tao, “Dual control of the nanofriction of graphene,”J. Mater. Chem. C7, 6041-6051 (2019).

17) M. Chen, J. Zhou,G. Tao, J. Yang, and L. Hu, “Wearable affective robot,”IEEE Access6, 64766-64776 (2018).

16) M. Du, S. Ye, J. Tang, S. Lv, J. Chen, J. Orava,G. Tao, P。Lan, J. Hao, Z. Yang, J. Qiu, and S. Zhou, "Scalable in-Fiber manufacture of functional composite particles,"ACS Nano12, 11130-11138 (2018).

___________Before moved to HUST___________

15)G. Tao, J. J. Kaufman, S. Shabahang, R. R. Naraghi, S. V. Sukhov, J. D. Joannopoulos, Y. Fink, A. Dogariu, and A. F. Abouraddy, “Digital design of multimaterial photonic particles,”Proc. Natl. Acad. Sci. USA 113, 6839-6844 (2016).

14) S. Shabahang,G. Tao, J. J. Kaufman, Y. Qiao, L. Wei, T. Bouchenot, A. P. Gordon, Y. Fink, Y. Bai, R. S. Hoy, and A. F. Abouraddy, “Controlled fragmentation of multimaterial fibres and filmsviapolymer cold-drawing,”Nature 534, 529-533 (2016).

13) Y. Sun, S. Dai, P. Zhang, X. Wang, Y. Xu, Z. Liu, F. Chen, Y. Wu, Y. Zhang, R. Wang, andG. Tao, “Fabrication and characterization of multimaterial chalcogenide glass fiber tapers with high numerical apertures”Opt. Express23,23472-23483 (2015).

12)G. Tao, H. Ebendorff-Heidepriem, A. M. Stolyarov, S. Danto, J. V. Badding, Y. Fink, J. Ballato, and A. F. Abouraddy,“Infrared fibers,”Adv. Opt. Photon.7, 379-458, (2015).Invited Reviewpaper.

11)G. Tao,S. Shabahang, S. Dai, and A. F. Abouraddy, “Multimaterial disc-to-fiber approach efficiently produce robust infrared fibers,”Opt. Mater. Express4, 2143–2149 (2014).

10)G. Tao, S. Shabahang, H. Ren, F. Khalizadeh-Rezaie, R. E. Peale, Z. Yang, X. Wang, and A. F. Abouraddy, “Robust multimaterial tellurium-based chalcogenide glass fibers for mid-wave and long-wave infrared transmission,”Opt. Lett.39, 4009-4012(2014).

09) S. Shabahang,G. Tao, M. P. Marquez, H. Hu, T. R. Ensley, P. J. Delfyett, and A. F. Abouraddy, “Nonlinear characterization of robust multimaterial chalcogenide nanotapers for infrared supercontinuum generation,”J. Opt. Soc. Am. B31, 450-457 (2014).

08) J. J. Kaufman, R. Ottman,G. Tao, S. Shabahang, X. Liang, S. G. Johnson, Y. Fink, R. Chakrabarti, and A. F. Abouraddy, “In-fiber production of polymeric particles for biosensing and encapsulation,”Proc. Natl. Acad. Sci. USA110, 15549-15554 (2013).

07) S. Shabahang,G. Tao, J. J Kaufman, and A. F. Abouraddy, "Dispersion characterization of chalcogenide bulk glass, composite fibers, and robust nano-tapers,"J. Opt. Soc. Am. B30, 2498-2506 (2013).

06)G. Tao, A. M. Stolyarov, and A. F. Abouraddy, “Multimaterial fibers,”I. J. Appl. Glass Science3, 349-368(2012).Invited Reviewpaper in the special issue, “Glass and Photonics”.

05)G. Tao,S.Shabahang, J.J.Kaufman, and A.F. Abouraddy, "Multimaterial preform coextrusion for robust chalcogenide optical fibers and tapers",Opt. Lett.37, 2751-2753 (2012).

04) J. J. Kaufman,G. Tao, S. Shabahang, D. S. Deng, X. Liang, S. G. Johnson, Y. Fink, and A. F. Abouraddy, “Structured spheres generated by an in-fibre fluid instability,”Nature487, 463-467 (2012).

03) S.Shabahang, M.P. Marquez,G. Tao, M.U. Piracha, D.Nguyen, P.J. Delfyett, and A.F. Abouraddy, "Octave-spanning infrared supercontinuum generation in robust chalcogenide nano-tapers using picosecond pulses,"Opt. Lett.37, 4639-4641 (2012).

02) J. J. Kaufman,G. Tao, S. Shabahang, D. S. Deng, Y. Fink, and A. F. Abouraddy, "Thermal drawing of high-density macroscopic arrays of well-ordered sub-5-nm-diameter nanowires",Nano Lett.11,4768-4773 (2011).

01)G. Tao, H. Guo, L. Feng, M. Lu, W. Wei, and B. Peng, “Formation and properties of a novel heavy-metal chalcogenide glass doped with a high dysprosium concentration,”J. Am. Ceram. Soc.92, 2226-2229 (2009).

美高梅游戏官网娱乐_手机美高梅游戏网址  联系电话:027-87558726  邮编:430074 地址:中国?湖北省武汉市珞喻路1037号 美高梅游戏官网娱乐南五楼六楼

XML 地图 | Sitemap 地图