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周济,清华大学材料学院教授,中国工程院院士。1983年毕业于吉林大学电子科学系,1986年在中国科学院长春物理研究所获理学博士学位,1991年在北京大学化学系获理学博士学位。长期从事信息功能材料的研究,在低温烧结软磁铁氧体和低温共烧陶瓷(LTCC)介质材料方面取得突破,解决了无源电子元器件片式化和集成的若干关键技术难题,为国内片式电感器和无源集成产业的形成和发展做出了贡献;提出了通过超材料与自然材料融合构筑新型功能材料的思想,在此基础上率先发展出了非金属基超常电磁介质等一系列新材料。兼任中国电子学会元件分会主任委员、中国材料学会超材料分会主任委员、中国电子元件行业协会科学技术委员会副主任、中国仪器仪表学会功能材料分会副理事长、《电子元件与材料》编委会主任等。发表学术论文369篇,出版学术专著1部,授权发明专利41项,作为第一完成人获国家自然科学二等奖和国家技术发明二等奖各1项以及国家杰出青年基金、教育部长江学者特聘教授、全国优秀科技工作者等荣誉称号。
【联系方式】
办公室:清华大学逸夫技术科学楼 1519(电话 / 传真:010-62772975)
实验室:清华大学逸夫技术科学楼 1518, 1520(电话:010-62784674)
email: zhouji@tsinghua.edu.cn
教育背景
理学士,吉林大学电子科学系(半导体化学专业), 1983
理学硕士,中国科学院长春物理研究所(固体物理专业), 1986
理学博士,北京大学化学系(无机化学专业), 1991
工作履历
1986-88 ,中国科学院长春物理研究所 , 研究实习员、助理研究员
1991 - 93 ,清华大学材料科学与工程系,博士后
1993 - 98, 清华大学材料科学与工程系副教授(其中 1993 - 95 年先后在香港科技大学物理系和美国电子材料公司做访问学者)
1998 -现在,清华大学材料学院教授(1999-2000 年在新加坡南洋理工大学光子学研究中心进行访问研究)
学术兼职
中国电子学会电子元件分会主任委员; 中国仪表学会功能材料分会副理事长;中国电子元件行业协会科学技术委员会副主任;中国硅酸盐学会特种陶瓷分会理事;中国物理学会电介质物理专业委员会委员;中国物理学会表面与界面物理专业委员会委员;《电子元件与材料》编委会主任; Optoelectronics Letter、Journal of Advanced Ceramics、Review in Nanoscience & Nanotechnology编委。
研究领域
(1)超材料(Metamaterials):介质基及本征型超材料、基于超构材料设计思想的高性能功能材料、超构材料中的新物理效应和新功能;
(2)信息功能材料与元件:功能陶瓷材料、光子晶体、纳米光电材料、新型无源电子元件及无源集成技术。
奖励与荣誉
国家技术发明奖二等奖( 2005 )、教育部科学技术奖一等奖( 2003 )、中国电子学会电子信息科学技术奖一等奖(2008)、国家杰出青年基金(2004)、教育部长江学者特聘教授(2007)、中国科协“全国优秀科技工作者”(2010)
学术成果
主要学术论文:
1. Indefinite by Nature: From Ultraviolet to Terahertz,Jingbo Sun, Natalia M. Litchinitser,and Ji Zhou*,ACS Photonics,1:293−303(2014)
2. Negative and near zero refraction metamaterials based on permanent magnetic ferrites,Ke Bi, Yunsheng Guo, Ji Zhou*, Guoyan Dong, Hongjie Zhao, Qian Zhao, Zongqi Xiao, Xiaoming Liu & Chuwen Lan,
Scientific Reports, 4: 4139(2014)
3. Temperature-dependent terahertz magnetic dipole radiation from antiferromagnetic GdFeO3 ceramics,Xiaojian Fu, Xiaoqing Xi, Ke Bi, and Ji Zhou*, Applied Physics Letters, 103: 211108 (2013)
4. Zero phase delay induced by wavefront modulation in photonic crystals, Guoyan Dong, Ji Zhou,* and Luzhong Cai , Physical Review B, 87:125107 (2013)
5. Plane wave beam produced by exclusive madium, Jingbo Sun, Qian Zhao, Bo Li, and Ji Zhou*, ProgressIn Electromagnetics Research, 13: 735-745 (2013)
6. Isotropic Mie resonance-based metamaterial perfect absorber, Xiaoming Liu, Qian Zhao, Chuwen Lan, and Ji Zhou,Applied Physics Letters, 10:031910 (2013)
7. Hyperbolic metamaterial based on anisotropic Mie-type resonance, Chuwen Lan, Ke Bi, Bo Li, Xiaohan Cui, Ji Zhou*, and Qian Zhao, Optics Express, 21: 029592 (2013)
8. Zero phase delay with relax incident condition in hotonic crystals, Guoyan Dong, Ke Bi, Ji Zhou*, Xiulun Yang, and Xiangfeng Meng, Optics Express, 21: 29860 (2013)
9. Multi-band negative refractive index in ferrite-based metamaterials, Ke Bi, Ji Zhou*, Xiaoming Liu, Chuwen Lan, and Hongjie Zhao, Progress In Electromagnetics Research, 140: 457-469 (2013)
10. Indefinite permittivity in KTP single crystal at infrared frequency, Hongya Wu, Jingbo Sun, Ji Zhou*, Bo Li, and Longtu Li, Journal of Optical Society of American, 30:324-327(2013)
11. Multi-refraction with same polarization state in two dimensional triangular photonic crystals, Guoyan Dong, Ji Zhou*, Progress In Electromagnetics Research, 128: 91-103 (2012)
12. Magnetic response and negative refraction at optical frequencies on the basis of electronic transitions in rare-earth ions doped crystals, Xiaojian Fu, Yuanda Xu, and Ji Zhou*, Progress In Electromagnetics Research, 137: 475-485(2012)
13. Multi-refraction with same polarization state in two dimensional triangular photonic crystals, Guoyan Dong, Ji Zhou*, Progress In Electromagnetics Research, 128: 91-103 (2012)
14. Indefinite permittivity and negative refraction in natural material: Graphite, Jingbo Sun, Ji Zhou*, Bo Li, Feiyu Kang, Applied Physics Letters, 98: 101901 (2011)
15. An extremely broad band metamaterial absorber based on destructive interference, Jingbo Sun, Lingyun Liu, Guoyan Dong, and Ji Zhou*, Optics Express, 19: 21155 (2011)
16. Abnormal refraction of microwave in ferrite/wire metamaterials, Hongjie Zhao, Bo Li, Ji Zhou*, Lei Kang, Qian Zhao and Weibin Li,Optics Express, Vol. 19(17):15679 (2011)
17. Artificial magnetic properties of dielelectric metamaterials in term of effective circuit model, Lingyun Liu, Jingbo Sun, Xiaojian Fu, Ji Zhou*, Qian Zhao, B.Fu, J.P.Liao, D.Lippens, Progress in Electromagneics Research, 116:159-170 (2011)
18.TM-wave propagation controlled by split ring resonator array, Jingbo Sun, Rui Wang, Li Sun, and Ji Zhou*, Optics Express, 18: 15643-15648 (2010)
19.Indefinite permittivity in uniaxial single crystal at infrared frequency, Rui Wang, Jingbo Sun, and Ji Zhou*, Applied Physics Letters, 97: 031912 (2010)
20.Low loss negative refraction metamaterial using a close arrangement of split-ring resonator arrays, Jingbo Sun, Lei Kang, Rui Wang, Lingyun Liu, Li Sun, and Ji Zhou*, New Journal of Physics 12:083020 (2010)
21.Mie resonance-based dielectric metamaterials, Qian Zhao, Ji Zhou*, Fuli Zhang, Didier Lippens, Materials Today, 12(12):60-69 (2009)
22. Tunable two-dimensional left-handed material consisting of ferrite rods and metallic wires, Hongjie Zhao, Ji Zhou*, Lei Kang, Optics Express, 17: 13373-13380 (2009)
23. Tunable negative permeability in an isotropic dielectric composite, Zhao Qian, Du Bo, Kang, Lei, Zhao Hongjie, Zhou Ji* and Li Longtu, Applied Physics Letters, 92 (5): No. 051106(2008)
24. Experimental demonstration of tunable negative phase velocity and negative refraction in a ferromagnetic/ferroelectric composite metamaterial,Hongjie Zhao, Lei Kang, Ji Zhou *, Qian Zhao, Longtu Li, Liang Peng, Yang Bai, Applied Physics Letters, 93:201106 (2008)
25. Ferrite-based magnetically tunable left-handed metamaterial composed of SRRs and wires, Kang Lei, Zhao Qian, Zhao Hongjie, Zhou Ji*,Optics Express, 16: 17269-17275 (2008)
26. Homogenous isotropic invisible cloak based on geometrical optics, Jingbo Sun, Ji Zhou *, Lei Kang, Optics Express, 16: 17768-17773 (2008)
27. Magnetic tuning of electrically resonant metamaterial with inclusion of ferrite, Lei Kang , Qian Zhao, Hongjie Zhao, Ji Zhou*, Applied Physics Letters, 93: 171909 (2008)
28. Magnetically tunable negative permeability metamaterial composed by split ring resonators and ferrite rods, Kang Lei, Zhao Qian, Zhao Hongjie, Zhou Ji*, Optics Express, 16: 8825-8834 (2008)
29. Experimental verification of a tunable optical negative refraction in nematic liquid crystals, Lei Kang, Qian Zhao, Bo Li, Ji Zhou*, Applied Physics Letters, 90:181931(2007)
30. Magnetotunable left-handed material consisting of yttrium iron garnet slab and metallic wires, Hongjie Zhao, Ji Zhou*, Qian Zhao, Bo Li, Yang Bai, Applied Physics Letters, 91: 131107 (2007)
32. Left-handed material based on ferroelectric medium, Yang Bai, Hongsheng Chen, Bo Li, Lixin Ran, Jin Au Kong *, Ji Zhou*, Optics Express, 15: 8284-8289 (2007)
33. Tunable negative refraction in nematic liquid crystals, Zhao Qian, Kang Lei, Du Bo, Zhao Hongjie, Zhou Ji*, Applied Physics Letters, 89:221918 (2006)
34. Effect of electromagnetic environment on the dielectric resonance in the ferroelectric-ferromagnetic composite, Bai Yang, Zhou Ji*, Sun Yu, Li Bo, Yue Zhenxing, Gui Zhilun, Li Longtu, Applied Physics Letters, 89: 112907 (2006)
35. ZnO Nanosheets with Ordered Pore Periodicity via Colloidal Crystal Template-Assisted Electrochemical Deposition, Ming Fu, Ji Zhou*, Qunfang Xiao, Bo Li, Ruilong Zong, Wei Chen, and Jun Zhang, Advanced Materials, 18:1001-1004(2006)
36. Synthesis and Optical Properties of Silver Nanowire Arrays Embedded in Anodic Alumina Membrane, Rui-Long Zong, Ji Zhou*, Qi Li, Bo Du, Bo Li, Ming Fu, Xi-Wei Qi, Long-Tu Li, and S. Buddhudu, Journal of Physical Chemistry B 108:16713-16716(2004)
37. Xiwei Qi, Ji Zhou*, Zhenxing Yue, Zhilun Gui, Longtu Li, S. Buddhudu, , A Ferroelectric Ferromagnetic Composite Material with Significant Permeability and Permittivity, Advanced Functional Materials, 14:920-926 (2004)
38. Photonic band gap in (Pb,La)(Zr,Ti)O3 inverse opals, Bo Li, Ji Zhou*, Lifeng Hao, Wei Hu, Ruilong Zong, Minmin Cai, Ming Fu, Zhilun Gui, Longtu Li, Qi Li,Applied Physics Letters, 82: 3617-3619 (2003)
39.Ferroelectric inverse opals with electrically tunable photonic band gap, Bo Li, Ji Zhou*, Longtu Li, Xing Jun Wang, Xiao Han Liu and Jian Zi, Applied Physics Letters, 83: 4704-4706 (2003)
40. Thermally tuning of photonic band gap of SiO2 colloid-crysyal infilled with ferroelectric BaTiO3 ” , Ji Zhou*, L.T. Li, C.Q.Sun, K. Pita1, Y.L.Lam, Y.Zhou, Z.L.Gui, S.L.Ng, C.H.Kam, Applied Physics Letters, Vol.78:661-663 (2001)
41. Photoluminescence of CdSe quantum dots in ferroelectric thin films Ji Zhou*, L.T.Li, Z.L. Gui, S.Buddhudu, and Y.Zhou, Applied Physics Letters, 76:1540-1542 (2000)
42. Three dimensional photonic bandgap structure of a polymer-metal composite Ji Zhou*, Y.Zhou, S.L.Ng, H.X.Zhang, W.X.Que, Y.L.Lam, Y.C.Chan, and C.H.Kam, Applied Physics Letters, 76:3337-3339 (2000)
43. Photoluminescence of of ZnS:Mn embedded in three-dimensional photonic crystal of submicron polymer spheres, Ji Zhou*, Y.Zhou, S.Buddhudu, S.L.Ng, Y.L.Lam, and C.H.Kam, Applied Physics Letters, 76:3513-15(2000)
【主讲课程】
《科学研究导论》,本科生研讨课
《光电材料》,研究生课程
【招生招聘】
本课题组特别欢迎具有材料科学、物理学、和电子学专业背景、有志于从事跨学科研究的同学报考硕士生、博士;同时,常年招聘相关领域博士后,专业不限。
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发表于 2017-3-11 16:03:55
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