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研究方向:物理学(光电功能材料、器件与物理)

长期从事宽禁带氧化物半导体材料、物理与器件研究。开发金属氧化物半导体低维结构的可控性生长和掺杂的新方法、新技术,解决了宽禁带氧化物半导体纯紫外发光/激光器件的制备、激光模式调控新技术新方法等,同时研制出关键指标国际领先的紫外/近红外波段高性能光电探测器件等。曾先后主持3项国家自然科学基金(1项青年基金,2项面上项目)研究结果以第一/通讯作者分别在Light: Sci. Appl.、Adv. Funct. Mater.、Adv. Opt. Mater.、Small、Photonics Res.、Opt. Express、Appl. Phys. Lett.、Nanoscale、ACS Photonics、J. Mater. Chem. C等学术刊物上发表 SCI 论文90多篇。其中期刊亮点/封面论文8篇。成果写入专著和多篇权威综述,多次被国际权威行业刊物专题报道。先后指导本科生发表SCI学术论文9篇,其中中科院分区一区论文1篇,7篇二区等。申请发明专利20项,授权8项。所获得科研奖励:2021年度江苏省物理学会大学生物理与实验创新竞赛优秀指导教师;2022年江苏省光学学会青年光学科技奖;2022年度潍柴动力科技创新奖;2021-2022学年实践指导优秀奖等。


研究方向:

半导体光电子材料、器件与物理;

微电子与集成光电路器件;

微纳光学与光电子学;

新型功能光电子材料与器件

光电功能材料:

宽禁带半导体材料(氧化锌,氧化镓,二氧化锡,碳化硅等宽禁带半导体材料)

低维钙钛矿光电子材料

新型二维光电子材料,比如MXene、石墨烯电极材料,以及新型二维光电探测材料等


亮点工作一:电泵浦单模激光二极管

基于宽带隙半导体微腔实现单频率振荡,特别是实现电驱动单模激光输出,使得低维半导体微/纳米线激光器在片上光通信、超分辨率成像、量子信息处理、超密集数据存储等方面具有巨大的商业应用潜力,引起了广泛的研究兴趣。近年来我们课题组基于大颗粒尺寸的金属铂纳米颗粒(PtNPs)提出了“超吸收”概念,用以调控单根氧化锌微米线微腔激光输出模式、获得单模输出。相比较目前广泛采用的引入分布式反馈光栅(DFB)或布拉格反射镜(DBR)、缩短激光腔长、基于游标效应的耦合腔结构、应力或应变效应以及奇偶时间对称破缺等而言,我们的实验方案更加简单、可重复,且稳定性好。特别是基于铂纳米颗粒包裹的单根氧化锌微米线(PtNPs@ZnO MW)构筑的异质结发光器件(n-PtNPs@ZnO MW/Pt/MgO/p-GaN异质结)实现了电驱动单模激光二极管。该发光器件采用Pt/MgO双层缓冲层不仅能够调控n-ZnO/p-GaN异质结能带结构、改善结区界面电学特性、有效降低界面光损耗等,还能够将结区耗尽层、激光增益区和光学谐振腔有效地限域在单根PtNPs@ZnO微米线中,实现了以ZnO近带边发光为主导的纯紫外发光器件和激光器件。经过大颗粒PtNPs修饰单根微米线,实现了激光二极管的输出模式调控,获得了单模激光。该部分研究工作发表在国际顶尖学术期刊Light: Sci. Appl.上,同时获得杂志新媒体和亮点和学校新闻网的推荐。


亮点工作二:多场耦合探测器件

高性能紫外探测器在导弹预警、火灾监控、通信通讯、医疗保健等领域有着广阔的应用前景。(1)利用热释电效应、光伏效应和金属表面等离激元效应的有机结合,构筑了基于ZnO微结构的高性能紫外光电探测,该探测器展现出较为优异的紫外探测能力,在自驱动条件下光响应度高达200 mA/W的,最大比探测率1013 Jones,信噪比最大达85dB,表明该探测器能够捕获很弱的紫外光辐射信号。该柔性光电探测器柔韧性强,稳定性高,实现了便携、可折叠、可穿戴的紫外探测器;(2)基于高结晶质量的SnO2微结构,构筑了高性能紫外发光与光电探测器的双功能器件,开发基于单根SnO2微结构异质结的发光、探测一体化低维双功能智能光电器件;(3)制备了Sb2Se3微米带光电导型偏振光电探测器。以二维过渡金属碳化物作为对称电极,制备出横向结构和垂直结构的Sb2Se3微米带偏振光电探测器。探测器表现出良好的近红外探测性能,最大光响应波长位于1050 nm附近,横向结构的Sb2Se3微米带偏振光电探测器可以实现双面偏振光探测。(4)结合Si基衬底制备了Sb2Se3微米带/硅(Si)异质结型自驱动偏振光电探测器。以MXene薄膜电极作为光透射窗口,制备出垂直结构的MXene/Sb2Se3微米带/Si光电探测器。在零偏压条件下,暗电流保持10 pA左右,响应度达到25 mA/W,探测率超过1010 Jones。偏振光电流测试表明Sb2Se3微米带/Si异质结型探测器具有良好的偏振探测能力,各向异性比在1.21~1.28范围内。另外,该器件可以实现单像素光电流扫描偏振成像。(5)采用双抛GaN衬底作为透射窗口,制备出Sb2Se3微米带/GaN背入射式光电探测器。得益于Sb2Se3微米带的光学二向色性、背入射式和异质结结构,Sb2Se3微米带/GaN光电探测器具有更为显著的偏振敏感性,各向异性比最高可达1.37。该部分工作分别获得期刊封面论文、《中国激光杂志社》的亮点推荐/2020年第一期封面论文,以及“Editor’s Choice”等。


指导本科生发表学术论文情况:

2020~2022年期间,以指导导师指导本科生合计发表SCI论文9篇。

1. Juntao Zhang, Kai Tang, Tingcha Wei*, Peng Wan, Daning Shi, Caixia Kan, Mingming Jiang*, High-photosensitive ultraviolet photodetector based on an n-ZnO microwire/p-InGaN heterojunction, Physica E 146 (2023) 115562

2. Qingheng Li, Yang Liu, Xinmiao Guan, Tingcha Wei*, Peng Wan, Daning Shi, Caixia Kan, Mingming Jiang*, High-performance ultraviolet photodetector based on p-PEDOT:PSS film/p-ZnO:Sb microwire/n-Si double heterojunction, Ceramics International, 2023, 49(5), 8302-8312

3. Dailong Wang, Maosheng Liu, Shenao Shang, Peng Wan, Daning Shi, Caixia Kan, Binghui Li and Mingming Jiang*, An individual ZnO microwire homojunction LED with ultraviolet electroluminescence spectrally purified using Pt nanoparticles cladding, Optics & Laser Technology, 2023, 160, 109052

4. Yihao Zhang, Tong Xu, Kaiheng Chang, Shuiyan Cao*, Peng Wan, Daning Shi, Caixia Kan*, Mingming Jiang*, Construction of n-SnO2 microwire/p-InGaN heterojunction for self-powered and broadband photodetector, Results in Physics 42 (2022) 105995

5. Xingjie Liu, Maosheng Liu, Rongde Zhu, Binghui Li*, Peng Wan, Daning Shi, Caixia Kan and Mingming Jiang*, Interfacial modulation and plasmonic effect mediated high-brightness green light sources in a single Ga-doped ZnO microwire based heterojunction, CrystEngComm, 2022, 24, 6642–6653.

6. Ruiming Dai, Yang Liu, Junfeng Wu, Peng Wan, Xingzhong Zhu, Caixia Kan and Mingming Jiang,* Self-powered ultraviolet photodetector based on n-ZnO:Ga microwire/p-Si heterojunction with performance enhanced by pyro-phototronic effect, Optics Express, 2021, 19, 30244-30258

7. Hongliang Dang, Xiangbo Zhou, Binghui Li, Caixia Kan, Mingming Jiang,* Higher-performance Fabry-Perot microlaser enabled by a quadrilateral microwire via Ag nanowires decoration, Optical Materials, 2021, 120, 111419

8. Lingfeng Zhang, Peng Wan, Tong Xu, Caixia Kan and Mingming Jiang*, Flexible ultraviolet photodetector based on single ZnO microwire/polyaniline heterojunctions, Optics Express, 2021, 29(14), 21783-21794.

9. Fupeng Zhang, Kai Tang, Peng Wan, Caixia Kan and Mingming Jiang*, Electrically driven single microribbon based near-infrared exciton-polariton light-emitting diode, CrystEngComm, 2021, 23, 4336-4343

2021年,四位同学参加江苏省高校大学生物理物理实验与创新竞赛一等奖两人次和三等奖两人次;南京航空航天大学本科生科研论文竞赛一等奖四人次等。


发表学术论文,出版专著情况:

2020年至今,以第一作者和通讯作者发表学术论文

1. Maosheng Liu, Mingming Jiang*, Qinzhi Zhao, Kai Tang, Shulin Sha, Binghui Li, Caixia Kan, and Da Ning Shi*, Ultraviolet Exciton-Polariton Light-Emitting Diode in a ZnO Microwire Homojunction, ACS Appl. Mater. Interfaces 2023, 15(10), 13258-13269

2. Haiying Xu, Juan Xu, Mingming Jiang*, Maosheng Liu, Kai Tang, Caixia Kan and  Daning Shi*, Exciton–polariton light-emitting diode based on a single ZnO superlattice microwire heterojunction with performance enhanced by Rh nanostructures, Phys. Chem. Chem. Phys., 2023, 25, 5836-5848

3. Kai Tang, Mingming Jiang*, Bingwang Yang, Tong Xu, Zeng Liu, Peng Wan, Caixia Kan and Daning Shi*, Enhancing UV photodetection performance of an individual ZnO microwire p–n homojunction via interfacial engineering, Nanoscale, 2023,15, 2292-2304

4. Juntao Zhang, Kai Tang, Tingcha Wei*, Peng Wan, Daning Shi, Caixia Kan, Mingming Jiang*, High-photosensitive ultraviolet photodetector based on an n-ZnO microwire/p-InGaN heterojunction, Physica E 146 (2023) 115562

5. Qingheng Li, Yang Liu, Xinmiao Guan, Tingcha Wei*, Peng Wan, Daning Shi, Caixia Kan, Mingming Jiang*, High-performance ultraviolet photodetector based on p-PEDOT:PSS film/p-ZnO:Sb microwire/n-Si double heterojunction, Ceramics International, 2023, 49(5), 8302-8312

6. Dailong Wang, Maosheng Liu, Shenao Shang, Peng Wan, Daning Shi, Caixia Kan, Binghui Li and Mingming Jiang*, An individual ZnO microwire homojunction LED with ultraviolet electroluminescence spectrally purified using Pt nanoparticles cladding, Optics & Laser Technology, 2023, 160, 109052

7. Peng Wan, Mingming Jiang,* Yun Wei, Tong Xu, Yang Liu, Sihao Xia, Longxing Su, Daning Shi, Xiaosheng Fang,* and Caixia Kan*, Junction-Enhanced Polarization Sensitivity in Self-Powered Near-Infrared Photodetectors Based on Sb2Se3 Microbelt/n-GaN Heterojunction, Adv. Optical Mater. 2023, 11, 2202080.

8. Peng Wan, Mingming Jiang,* Longxing Su, Sihao Xia, Yun Wei, Tong Xu, Yang Liu, Daning Shi, Xiaosheng Fang*, Caixia Kan*, Perpendicularly Reversed Polarization Sensitivity of Double-faced Photodetection based on Sb2Se3 Microbelt, Adv. Funct. Mater. 2022, 2207688

9. Yang Liu, Mingming Jiang,* Peng Wan, Tong Xu, Daning Shi and Caixia Kan*, Enhanced performance of ZnO microwire/PEDOT:PSS heterojunction ultraviolet photodetectors via carbon nanohorns and DMSO treatment, J. Mater. Chem. C, 2022, 10, 12809-12820

10. Yihao Zhang, Tong Xu, Kaiheng Chang, Shuiyan Cao*, Peng Wan, Daning Shi, Caixia Kan*, Mingming Jiang*, Construction of n-SnO2 microwire/p-InGaN heterojunction for self-powered and broadband photodetector, Results in Physics 42 (2022) 105995

11. Xingjie Liu, Maosheng Liu, Rongde Zhu, Binghui Li*, Peng Wan, Daning Shi, Caixia Kan and Mingming Jiang*, Interfacial modulation and plasmonic effect mediated high-brightness green light sources in a single Ga-doped ZnO microwire based heterojunction, CrystEngComm, 2022, 24, 6642–6653.

12. Tong Xu, Mingming Jiang,* Peng Wan, Yang Liu, Caixia Kan and Daning Shi*, High-performance self-powered ultraviolet photodetector in SnO2 microwire/p-GaN heterojunction using graphene as charge collection medium, Journal of Materials Science & Technology 138 (2023) 183–192

13. Xiangbo Zhou, Mingming Jiang,* Kai Xu, Maosheng Liu, Shulin Sha, Shuiyan Cao, Caixia Kan* and Da Ning*, Electrically driven single microwire-based single-mode microlaser. Light: Sci. Appl. 11, 198 (2022).

14. Maosheng Liu, Mingming Jiang,* Xiangbo Zhou, Caixia Kan, Daning Shi*, Performance-enhanced single-mode microlasers in an individual microwire covered by Ag nanowires, Optics & Laser Technology, 2022, 155, 108391

15. Yihan Chen, Longxing Su, MingmingJiang and Xiaosheng Fang*, Switch type PANI/ZnO core-shell microwire heterojunction for UV photodetection, Journal of Materials Science & Technology, 105, 2022, 259-265

16. Zhou, Xiangbo; Jiang, Mingming;* Wu, Junfeng; Liu, Maosheng; Kan, Caixia; Shi, Daning, Electrically driven whispering-gallery-mode microlasers in an n-MgO@ZnO:Ga microwire/p-GaN heterojunction, Optics Express 30(11), 18273-18286 (2022)

17. Kai Tang, Peng Wan, Caixia Kan,* Maosheng Liu, Daning Shi, and Mingming Jiang,* Continuous-wave operation of electrically driven single mode microlaser, Appl. Phys. Lett., 2022, 120, 011105.

18. Yuzhou Sun, Mingming Jiang, Binghui Li,* Xiuhua Xie, Chongxin Shan,* and Dezhen Shen,* Electron-hole plasma Fabry-Perot lasing in a Ga-incorporated ZnO microbelt via Ag nanoparticle deposition, Opt. Express, 2022, 30(2), 740-753.

19. Baihe Hanqi, Mingming Jiang*, Chengxin Lin, Maosheng Liu, Daning Shi and Caixia Kan*, Flexible CsPbBr3 microwire photodetector with a performance enhanced by covering it with an Ag nanolayer, CrystEngComm, 2022,24, 7620-7631

20. Yulan Xie, Peng Wan, Mingming Jiang*, Yang Liu, Daning Shi and Caixia Kan*, Performance enhancement of a self-biased n-ZnO microwire/p-GaN heterojunction ultraviolet photodetector incorporating Ag nanowires, CrystEngComm, 2022,24, 7727-7738

21. Peng Wan, Mingming Jiang,* Tong Xu, Yang Liu, Xiaosheng Fang,* Caixia Kan,* Doping Concentration Influenced Pyro-Phototronic Effect in Self-Powered Photodetector Based on Ga-Incorporated ZnO Microwire/p+-GaN Heterojunction, Adv. Opt. Mater. 2021, 2101851

22. Tong Xu, Mingming Jiang,* Peng Wan, Kai Tang, Daning Shi, Caixia Kan*, Bifunctional ultraviolet light-emitting/detecting device based on a SnO2 microwire/p-GaN heterojunction, Photonics Research, 2021, 9(12), 2475-2485

23. Maosheng Liu, Mingming Jiang*, Yang Liu, Kai Tang, Da Ning Shi, and Caixia Kan*, Wavelength-Tunable Green Light Sources Based on ZnO:Ga Nanowire/p-InGaN Heterojunctions, ACS Appl. Nano Mater. 2021, 4, 11168−11179

24. Yang Liu, Ruiming Dai, Mingming Jiang,* Kai Tang, Peng Wan and Caixia Kan*, Enhanced luminescence/photodetecting bifunctional devices based on ZnO:Ga microwire/p-Si heterojunction by incorporating Ag nanowires, Nanoscale Adv., 2021,3, 5605-5617

25. Ruiming Dai, Yang Liu, Junfeng Wu, Peng Wan, Xingzhong Zhu, Caixia Kan and Mingming Jiang,* Self-powered ultraviolet photodetector based on n-ZnO:Ga microwire/p-Si heterojunction with performance enhanced by pyro-phototronic effect, Optics Express, 2021, 19, 30244-30258

26. Hongliang Dang, Xiangbo Zhou, Binghui Li, Caixia Kan, Mingming Jiang,* Higher-performance Fabry-Perot microlaser enabled by a quadrilateral microwire via Ag nanowires decoration, Optical Materials, 2021, 120, 111419

27. Kunjie Ma, Binghui Li, Xiangbo Zhou, Mingming Jiang, Yang Liu, and Caixia Kan,* Plasmon-enabled spectrally narrow ultraviolet luminescence device using Pt nanoparticles covered one microwire-based heterojunction, Optics Express, 2021, 29(14), 21783-21794

28. Lingfeng Zhang, Peng Wan, Tong Xu, Caixia Kan and Mingming Jiang*, Flexible ultraviolet photodetector based on single ZnO microwire/polyaniline heterojunctions, Optics Express, 2021, 29(14), 21783-21794.

29. Fupeng Zhang, Kai Tang, Peng Wan, Caixia Kan and Mingming Jiang*, Electrically driven single microribbon based near-infrared exciton-polariton light-emitting diode, CrystEngComm, 2021, 23, 4336-4343

30. Peng Wan, Mingming Jiang*, Tong Xu, Yang Liu, Caixia Kan*, High-mobility induced high-performance self-powered ultraviolet photodetector based on single ZnO microwire/PEDOT:PSS heterojunction via slight Ga-doping, Journal of Materials Science & Technology, 2021, 93, 33–40

31. Zheng Yang†, Mingming Jiang†, Linjuan Guo, Guofeng Hu, Yansong Gu, Jianguo Xi, Zhihao Huo, Fangtao Li, Shufang Wang, Caofeng Pan, A high performance CsPbBr3 microwire based photodetector boosted by coupling plasmonic and piezo-phototronic effects, Nano Energy, 2021, 85, 105951

32. Fangtao Li, Mingming Jiang, Yang Cheng, Yufei Zhang, Zheng Yang, Yiyao Peng, Wenda Ma, Qiushuo Chen, Chunfeng Wang, Kaihui Liu, Rongming Wang, Junfeng Lu and Caofeng Pan, Single-mode lasing of CsPbBr3 perovskite NWs enabled by the Vernier effect, Nanoscale, 2021, 13, 4432–4438

33. Fangtao Li, Zheng Yang, Mingming Jiang, Chunfeng Wang, Jianguo Xi, Yufei Zhang, Caofeng Pan, Junfeng Lu, and Rongming Wang, Wavelength tunable single-mode lasing from cesium lead halide perovskite microwires, Appl. Phys. Lett. 2021, 118, 071103

34. Kunjie Ma, Xiangbo Zhou, Caixia Kan, Juan Xu and Mingming Jiang*, Pt nanoparticles utilized as efficient ultraviolet plasmons for enhancing whispering gallery mode lasing of a ZnO microwire via Ga-incorporation, Phys. Chem. Chem. Phys., 2021,23, 6438-6447

35. Haiying Xu, Changzong Miao, Mingming Jiang*, Yang Liu, Caixia Kan and Daning Shi, Plasmonic enhancement of current-driven whispering gallery polariton device of single microwire based heterojunction via Rh nanocubes deposition, Journal of Luminescence, 2021, 235, 118016

36. Mingming Jiang*, Peng Wan, Kai Tang, Maosheng Liu and Caixia Kan, An electrically driven whispering gallery polariton microlaser, Nanoscale, 2021,13, 5448-5459

37. Mingming Jiang*, Kai Tang, Peng Wan, Tong Xu, Haiying Xu and Caixia Kan*, A single microwire near-infrared exciton-polariton light-emitting diode, Nanoscale, 2021, 13, 1663-1672

38. Kai Tang, Mingming Jiang*, Peng Wan, and Caixia Kan, Continuous-wave operation of an electrically pumped single microribbon based Fabry-Perot microlaser, Optics Express, 2021, 29(2), 983-995

39. Caixia Kan, Yuting Wu, Juan Xu, Peng Wan and Mingming Jiang*, Plasmon-enhanced strong exciton–polariton coupling in single microwire-based heterojunction light-emitting diodes, Optics Express, 2021, 29(2), 1023-1036

40. Xiangbo Zhou, Kunjie Ma, Mingming Jiang*, Changzong Miao, Caixia Kan and Daning Shi, Single microwire based smart color-switchable light-emitting diode, Optics and Lasers in Engineering 138 (2021) 106433

41. Changzong Miao, Mingming Jiang,* Haiying Xu, Jiaolong Ji and Caixia Kan, Vertically-aligned ZnO microrod for high-brightness light source, CrystEngComm, 2020, 22, 6453-6464

42. Yang Liu, Mingming Jiang,* Kai Tang, Kunjie Ma, Yuting Wu, Jiaolong Ji and Caixia Kan, Plasmon-enhanced high-performance Si-based light sources by incorporating alloyed Au and Ag nanorods, CrystEngComm, 2020, 22, 6106-6115

43. Changzong Miao, Haiying Xu, Mingming Jiang,* Jiaolong Ji, and Caixia Kan. Employing Rhodium tripod stars for ultraviolet plasmons enhanced Fabry-Perot mode lasing, CrystEngComm, 2020, 22, 5578-5586 

44. Changzong Miao, Haiying Xu, Mingming Jiang,* Yang Liu, Peng Wan, and Caixia Kan,High performance lasing in a single ZnO microwire using Rh nanocubes, Optics Express, 2020, 28(14), 20920-20929.

45. Peng Wan, Mingming Jiang,* Kai Tang, Xiangbo Zhou and Caixia Kan. Hot electron injection induced electron–hole plasma lasing in a single microwire covered by large size Ag nanoparticles, CrystEngComm, 2020, 22, 4393-4403

46. Beier Zhou, Yichi Zhong, Mingming Jiang,* Jianhao Zhang, Hongxing Dong, Linqi Chen, Hao Wu, Wei Xie and Long Zhang, Linearly polarized lasing based on coupled perovskite microspheres. Nanoscale, 2020,12, 5805-5811

47. Xiangbo Zhou, Mingming Jiang,* Yuting Wu, Kunjie Ma, Yang Liu, Peng Wan, Caixia Kan and Daning Shi,Hybrid quadrupole plasmon induced spectrally pure ultraviolet emission from a single AgNPs@ZnO:Ga microwire based heterojunction diode, Nanoscale Adv., 2020, 2, 1340-1351

48. Yuting Wu, Juan Xu, Mingming Jiang,* Xiangbo Zhou, Peng Wana and Caixia Kan, Tailoring the electroluminescence of a single microwire based heterojunction diode using Ag nanowires deposition, CrystEngComm, 2020, 22, 2227-2237

49. Wangqi Mao, Mingming Jiang,* Jiaolong Ji, Peng Wan, Xiangbo Zhou, Caixia Kan, Microcrystals Modulated Exciton-Polariton Emissions from Single ZnO@ZnO:Ga Microwire, Photon. Res., 2020, 8(2), 175-185

50. Zhipeng Sun, Mingming Jiang,* Wangqi Mao, Caixia Kan, Chongxin Shan and Dezhen Shen, Non-equilibrium Hot-electron Induced Wavelength-tunable Incandescent-type Light Sources, Photon. Res., 2020, 8, 91-102


  • Educational Experience
  • Work Experience
2004-9 | 2010-6
  • 中国科学技术大学
  • 原子与分子物理学
  • With Certificate of Graduation for Doctorate Study
  • Doctoral Degree in Science

2004-9 | 2010-6
  • 中国科学技术大学
  • 原子与分子物理学
  • With Certificate of Graduation for Doctorate Study
  • Doctoral Degree in Science

2000-9 | 2004-7
  • 大连理工大学
  • 应用物理学
  • University graduated
  • Bachelor's Degree in Science

2000-9 | 2004-7
  • 大连理工大学
  • 应用物理学
  • University graduated
  • Bachelor's Degree in Science

1997-9 | 2000-7
  • 安徽省萧县中学
  • 理科
  • 普通高中毕业
  • 无学位

1997-9 | 2000-7
  • 安徽省萧县中学
  • 理科
  • 普通高中毕业
  • 无学位

  • Social Affiliations
  • Research Focus
Personal Information

Researcher
Supervisor of Doctorate Candidates

Gender:Male

Alma Mater:中国科学技术大学

Education Level:中国科学技术大学

Degree:Doctoral Degree in Science

School/Department:College of Science

Discipline:Physics. Physics

Business Address:理学院482

Contact Information:18851870557

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