基本信息
张俊 男 半导体研究所
电子邮件:zhangjwill@semi.ac.cn
通信地址:北京市清华东路甲35号半导体所超晶格室
邮政编码:100083
部门/实验室:超晶格国家重点实验室

研究领域

致力于发现和理解低维量子系统中的光物理现象,目前研究方向包括(但不限于):

1、凝聚相材料中的激光制冷研究
2、基于声子的固态量子调控
3、新奇低维量子结构的合成、表征和光电性质质
4、光学超常材料(Metamaterials)的新奇光学性质和单分子光谱检测

招生信息

本研究组有各种完善的材料制备和生长、光电器件制备系统、低温磁场环境下稳态和瞬态光谱系统、光电测量系统,欢迎对各种新奇低维量子结构的合成、光电性质研究和光电器件制作感兴趣的同学报考本研究组的硕博连读生。


本研究组同时招收博士后,特别欢迎具有如下研究背景的人才加盟:1)化学气相蒸发沉积(CVD)、化学气相输运(CVT)、湿法合成等方法生长高单晶质量的低维纳米结构和二维层状晶体;2)时间分辨瞬态光谱研究;3)非线性光学性质研究。


通信地址:北京市海淀区清华东路甲35号半导体所超晶格室
电子邮件:zhangjwill@semi.ac.cn
学术主页:http://www.escience.cn/people/ISCAS-ZhangJun/index.html

招生专业
凝聚态物理

研究方向
1、凝聚相材料中的激光制冷研究
2、基于声子的固态量子调控
3、新奇低维量子结构的合成、表征和光电性质质
4、光学超常材料(Metamaterials)的新奇光学性质和单分子光谱检测

教育背景

2005-09--2010-07 中国科学院半导体研究所 博士
2000-09--2004-07 内蒙古大学物理系 本科

工作经历

2015年-至今,中科院半导体所,“青年千人计划” 研究员
2010-2015年,新加坡南洋理工大学,博士后

教授课程

显微共焦拉曼光谱学

专利与奖励

2015年入选中组部第十一批“青年千人计划”
专利成果
(1) Semiconductor optical cryocooler,发明,2013,第2作者,专利号:13/911,825
(2) Method Of Generating A Metamaterial, And A Metamaterial Generated Thereof,发明,2015,第3作者,专利号:194910

出版信息

已在国际学术期刊上发表学术论文40多篇,其中在影响因子大于6的杂志上发表文章24篇,包括1篇《Nature》(封面)、7篇《Nano Letters》、 7篇《ACS Nano》。 撰写Wiley出版的英文专著《One-Dimensional Nanostructures: Principles and Applications》的第七章。相关工作被《自然:光子学Nature Photonics 7, 348–349 (2013)》和《自然:光子学Nature Photonics 7, 262 (2013)》, 《自然:亚洲材料 NPG Asia Materials》,《Wiley 材料视点:中国, Materials Views China》, 以及国内和国际媒体作亮点报道多次,并多次受邀在SPIE Photonics West、IEEE国际纳米电子, IUMRS,BME等国际学术会议上做邀请报告。研究成果包括:1)在实验上首次观察到了半导体的激光制冷现象,相关成果发表在《Nature 493,504 ;2013》上,并被选为当期的封面。这一工作被认为是继激光冷却原子气后激光冷却技术的重大突破, 被认为是向无制冷剂全固态制冷器的实现迈出的重要一步。2)完整报道了不同层数拓扑绝缘体Bi2Se3和Bi2Te3的拉曼光谱,以及他们的呼吸模、剪切模和界面模;首次报道了单层到块体材料层状材料MoS2和WSe2的超低频呼吸模和剪切声子模。3)利用拉曼光谱研究了半导体纳米结构纳米结构的声子谱和电声子耦合;提出利用偏振拉曼光谱来确定纳米厚度分子束外延铁磁薄膜的应力、组分和外延晶体取向;发现了CdS纳米带中表面耗尽诱导的限制效应;报道了CdS纳米线纳米带在电场调制下光电流谱的量子隧穿效应。4)制作了连续可调的可见-近红外波段的超材料并详细研究其电磁耦合和超灵敏生物化学检测,如塑化剂、三聚氰胺、DNA、蛋白等。

发表论著 
1. J. Zhang, L. C. Kwek, and Q. H. Xiong, Sideband Raman Cooling of Optical Phonons in Semiconductors, Nature Photon., under review (2015)
2. S. T, Ha, C. Shen, J. Zhang, and Q. H. Xiong, Laser Cooling of Organic-inorganic Lead Halide Perovskites, Nature Photon., 2nd Revising, (2015)
3. D. H. Li*, J. Zhang* (co-first author), and Q. H. Xiong, Solid-State Semiconductor Cryocooler Based on CdS Nanobelts, Nano Lett. 14, 4724–4728, (2014)
4. J. Zhang, C. Cao, X. L. Xu, C. H. Liow, S. Z. Li, P. H. Tan, and Q. H. Xiong, Tailoring Plasmonic Metamaterials in Optical Frequency: Coupling, Dispersion and Sensing, ACS Nano, 8, 3796-3806, (2014)
5. J. Zhang, D. H. Li and Q. H. Xiong, Breakthrough of optical refrigeration: Laser cools a semiconductor by 40 K, Laser Focus World, 49(6), 53-55, (2013)
6. D. H. Li*, J. Zhang* (co-first author) and Q. H. Xiong, Laser cooling of CdS nanobelts Thickness matters, Optics Express, 21, 19302-19310, (2013)
7. J. Zhang, D. H. Li, R. J. Chen, Q. H. Xiong, Laser cooling of a semiconductor by 40 kelvin: an optical refrigerator based on cadmium sulfide nanoribbions, Proc. SPIE 863808-863808-8 (2013)
8. J. Zhang, D. H. Li, R. J. Chen, and Q. H. Xiong, Laser Cooling of a Semiconductor by 40 Kelvin, Nature (cover), 493, 504 (2013). Highlighted by Nature Photon. 7, 348–349 (2013) and Nature Photon. 7, 262 (2013)
9. J. Zhang, J. Wu and Q. H. Xiong, Book Chapter 7: One-Dimensional Semiconductor Nanowires: Synthesis and Raman Scattering, p-145-166, Book Title One-Dimensional Nanostructures: Principles and Applications, Edited by Tianyou Zhai and Jiannian Yao, ISBN 978-1-1183-1036-6, John Wiley & Sons, Inc. (2012/12/10)
10. J. Zhang, Z. P. Peng, A. Soni, Y. Y. Zhao, Y. Xiong, B. Peng, J. B. Wang, M. S. Dresselhaus, and Q. H. Xiong, Raman Spectroscopy of Few-Quintuple Layer Topological Insulator Bi2Se3 Nanoplatelets, Nano Lett., 11(6), 2407-2414 (2011)
11. J. Zhang, P. H. Tan, W. J. Zhao, J. Lu and J. H. Zhao, Raman study of ultrathin Fe3O4 films on GaAs(001) substrate: stoichiometry, epitaxial orientation and strain. J. Raman Spectrosc., 42(6), 1388–1391, (2011)
12. J. Zhang, P. H. Tan, W. J. Zhao, Accurate determination of electronic transition energy of carbon nanotubes from the resonant behavior of radial breathing modes and their overtones, Acta Phys. Sin., 59, 7966-08 (2010)
13. C. Cao, J. Zhang, and Q. H. Xiong, Intelligent and Ultrasensitive Analysis of Mercury Trace Contaminants via Plasmonic Metamaterials-Based Surface-Enhanced Raman Spectroscopy, Small, 10, 3252-3256, (2014)
14. Y. B. Zhao, J. Zhang, S. W. Liu, Y. Gao, X. Y. Yang, K. S. Leck, A. P. Abiyasa, Y. Divayana, E. Mutlugun, S. T. Tan, Q. H. Xiong, H. V. Demir, X. W. Sun, Transition metal oxide on organic semiconductors for efficient and simple organic optoelectronic devices, Org. Electron., 15, 871-877, (2014)
15. C. Cao, J. Zhang, S. Dodson, X. L. Wen, N. T. Dao, L. M. Wong, S. J. Wang, S. Z. Li, A. T. Phan,Metamaterials-based Label-free Nanosensor for Conformation and Affinity Biosensing, ACS Nano, 7, 7583–7591, (2013)
16. D. H. Li, J. Zhang and Q. H. Xiong, Demonstration of Net Laser Cooling in a Semiconductor, Asia Pac. Phys. Newslett. 02, 27 (2013)
17. D. H. Li, J. Zhang, Q. Zhang, and Q. H. Xiong, Electric-Field-Dependent Photoconductivity in CdS Nanowires and Nanobelts: Exciton Ionization, Franz−Keldysh, and Stark Effects, Nano Lett., 12(6), 2293-2999 (2012)
18. D. H. Li, J. Zhang, Q. Zhang, and Q. H. Xiong, Surface Depletion Induced Quantum Confinement in CdS Nanobelts, ACS Nano, 6(6), 5283-5290 (2012)
19. Q. Zhang, J. Zhang, M. I. B. Utama, B. Peng, M. de la Mata, J. Arbiol, and Q. H. Xiong, Exciton-phonon coupling in individual ZnTe nanorods studied by resonant Raman spectroscopy, Phys. Rev. B, 85(8), 085418 (2012)
20. M. I. B. Utama, J. Zhang, R. J. Chen, X. L. Xu, D. H. Li, H. D. Sun, and Q. H. Xiong, Synthesis and optical properties of II-VI 1D nanostructures", Nanoscale (cover), 4, 1422 (2012)
21. J. Pan, Jun Zhang, Xuefeng Song, Hao Shen, Qihua Xiong, Switchable Wettability in SnO2 Nanowires and SnO2@SnO2 Heterostructures, J. Phys. Chem. C, 115(45), 22225–22231 (2011)
22. P. H. Tan, J. Zhang, G. Y. Zhang and E. G. Wang, Raman scattering from individual tubular graphite cone, Carbon, 45(5), 1116-1119 (2007)
23. X. L. Xu, Q. Zhang, J. Zhang, Y. X. Zhou, and Q. H. Xiong, Taming Excitons in II-VI Semiconductor Nanowires and Nanobelts, J. Phys. D: Appl. Phys., 47, 394009 (2014)
24. M. I. B. Utama, Q. Zhang, J. Zhang, Y. W. Yuan, F. Belarre, J. Arbiol, and Q. H. Xiong, Recent developments and future directions in the growth of nanostructures by van der Waals epitaxy, Nanoscale, 5 (9), 3570-3588 (2013)
25. Y. Y. Zhao, X. Luo, J. Zhang, J. X. Wu, X. X. Bai, M. X. Wang, J.F. Jia, H.L. Peng, Z.F. Liu, S.Y. Quek and Q.H. Xiong, Interlayer vibrational modes in few-quintuple-layer Bi2Te3 and Bi2Se3 two-dimensional crystals: Raman spectroscopy and first-principles studies, Phys. Rev. B,90, 245428 (2014)
26. X. Luo, Y. Y. Zhao, J. Zhang, Q. H. Xiong and S. Y. Quek, Effects of lower symmetry and dimensionality on Raman spectra in 2D WSe2, Phys. Rev. B. 88, 195313, (2013)
27. X. Luo, Y. Y. Zhao, J. Zhang, Q. H. Xiong and S. Y. Quek, Anomalous frequency trends in MoS2 thin films attributed to surface effects, Phys. Rev. B. 88, 075320, (2013)
28. X. Lu, M. I. B. Utama, J. Zhang, Y. Y. Zhao, Q. H. Xiong, Layer-by-Layer thinning of MoS2 by thermal annealing, Nanoscale, 5, 8904-8908, (2013)
29. J. Z. Shang, C. X. Cong, J. Zhang, Q. H. Xiong, G. G. Gurzadyan and T. Yu, Observation of low-wavenumber out-of-plane Optical Phonon in Few-layer Graphene, J. Raman Spectrosc. 44, 70-74 (2012)
30. Z. Q. Luo, C. X. Cong, J. Zhang, Q. H. Xiong, T. Yu, The origin of sub-bands in the Raman D-band of graphene, Carbon, 50(11), 4252-4258 (2012)
31. Z. Q. Luo, C. X. Cong, J. Zhang, Q. H. Xiong, T. Yu, Direct observation of inner and outer G’ band double-resonance Raman scattering in free standing graphene, Appl. Phys. Lett. 100(24), 243107(1)-243107(4) (2012)
32. W. J. Zhao, P. H. Tan, J. Zhang, and J. Liu, Charge transfer and optical phonon mixing in few-layer graphene chemically doped with sulfuric acid, Phys. Rev. B 82(24), 245423 (2010)
33. Z. G. Nie, R. Long, L. F. Sun, C. C. Huang, J. Zhang, Q. H. Xiong, D. W. Hewak, Z. X. Shen, O. V. Prezhdo, Z. H. Loh, Ultrafast Carrier Thermalization and Cooling Dynamics in Few-Layer MoS2, ACS nano, 8, 10931-10940 (2014)
34. S. Shukla, N. H. Loc, P. P. Boix, T. M. Koh, R. R. Prabhakar, H. K. Mulmudi, J. Zhang, S. Chen, C. F. Ng, C. H. A. Huan, N. Mathews, T. Sritharan, Q. H. Xiong, Iron Pyrite Thin Film Counter Electrodes for Dye-Sensitized Solar Cells: High Efficiency for Iodine and Cobalt Redox Electrolyte Cells, ACS nano, 8, 10597-10605 (2014)
35. Z. Li, S. A. Kulkarni, P. P. Boix, E. Shi, A. Y. Cao, K. W. Fu, S. K Batabyal, J. Zhang, Q. H. Xiong, L. H. Wong, N. Mathews, S. G Mhaisalkar, Laminated Carbon Nanotube Networks for Metal Electrode-Free Efficient Perovskite Solar Cells, ACS Nano, 8, 6797-6804, (2014)
36. X. Lu, M. I. B. Utama, J. H. Lin, X. Gong, J. Zhang, Y. Y. Zhao, J. X. Wang, Z. L. Dong, Z. Liu, W. Zhou, and Q. H. Xiong, Large-area Synthesis of Monolayer and Few layer MoSe2 Films on SiO2 Substrates”, Nano Lett. 14, 2419-2415, (2014)
37. Y. Y. Zhao, M. de la Mata, R. LJ Qiu, J. Zhang, X. L. Wen, C. Magen, X. PA Gao, J. Arbiol, Q. H. Xiong, Te-seeded Growth of Few-Quintuple Layer Bi2Te3 Nanoplates, Nano Research 7, 1243-1253 (2014), (2014)
38. B. Peng, G. Y. Li, D. H. Li, S. Dodson, Q. Zhang, J. Zhang, Y. H. Lee, H. V. Demir, X. Y. Ling, and Q. H. Xiong, Vertically Aligned Gold Nanorod Monolayer on Arbitrary Substrates: Self-Assembly and Femtomolar Detection of Food Contaminants, ACS Nano. 7(7), 5993-6000, (2013)
39. X. L. Xu, B. Peng, D. H. Li, J. Zhang, L. M. Wong, Q. Zhang, S. J. Wang, and Q. H. Xiong, Flexible Visible-Infrared Metamaterials and Their Applications in Highly Sensitive Chemical and Biological Sensing, Nano Lett., 11(8), 3232-3238 (2011)
40. Y. Y. Zhao, X. Luo, H. Li, J. Zhang, P. T Araujo, C. K. Gan, J. Wu, H. Zhang, S. Y. Quek, M. S Dresselhaus, Q. H. Xiong, Interlayer breathing and shear modes in few-trilayer MoS2 and WSe2, Nano Lett., 13(3), 1007-1015, (2013)
41. Q. Zhang, X. Liu, M. I. B. Utama, J. Zhang, M. de la Mata, J. Arbiol, Y. H. Lu, T. C. Sum and Q. H. Xiong, Highly Enhanced Exciton Recombination Rete by Strong Electron-Phonon Coupling in Single ZnTe Nanobelt, Nano Lett., 12(12), 6420-6427 (2012)
42. X. L. Wen, G. Y. Li, J. Zhang, Q. Zhang, B. Peng, L. M. Wong, S. J. Wang and Q. H. Xiong, Transparent free-standing metamaterials and their applications in surface-enhanced Raman scattering, Nanoscale 6, 132-139 (2014)
43. Y. Q. Wen, F. Y. Li, X. C. Dong, J. Zhang, Q. H. Xiong and P. Chen, The Electrical Detection of Lead Ions Using Gold-Nanoparticle and DNAzyme-Functionalized Graphene Device, Adv. Healthcare Mater., 2, 271-274, (2012)
44. L. F. Xi, K. H. Chua, Y. Y. Zhao, J. Zhang, Q. H. Xiong and Y. M. Lam, Controlled Synthesis of CdE (E=S, Se and Te) Nanowires, RSC Adv., 2(12), 5243-5253 (2012)
45. Y. Y. Zhao, K. T. Chua, C. Kwan, J. Zhang, B. Peng, Z. P. Peng, and Q. H. Xiong, Phonons in Bi2S3 Nanostructures: Raman Scattering and First-principles Studies, Phys. Rev. B, 84(20), 205330 (2011)



科研活动

   
科研项目
(1) 中组部“青年千人计划”,主持,国家级,2016-01--2018-12
(2) II-VI族半导体中激光制冷的研究,主持,国家级,2016-01--2019-12
(3) 青年千人计划启动经费,主持,研究所(学校)级,2015-05--2018-04
参与会议
(1) Laser Cooling in Semiconductors,2015-06,Jun Zhang
(2) Sideband Raman cooling of optical phonons in semiconductors,2015-03,Jun Zhang, Leong C. Kwek, Qihua Xiong
(3) Sideband Raman cooling of optical phonons in semiconductors,2015-02,Jun Zhang, Leong C. Kwek, Qihua Xiong
(4) Artificial plasmonic nanostructures for ultrasensitive chemical and biological sensing,2014-06,Jun Zhang, Cuong Cao,Qihua Xiong
(5) Tailoring alphabetical metamaterials in optical frequency: Coupling, dispersion and sensing,2014-03,Jun Zhang, Cuong Cao,Qihua Xiong
(6) Sideband Raman Cooling of Optical Phonons in Semiconductors,2014-03,Jun Zhang, Leong C. Kwek, Qihua Xiong

合作情况

   
项目协作单位
   

指导学生