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姜明明
2023-05-11 16:10
  • 姜明明
  • 姜明明 - 理学博士 研究员-南京航空航天大学-理学院-个人资料

近期热点

资料介绍

个人简历


研究方向:
物理学(低维功能材料、器件与物理)
1. 半导体微纳光电材料的可控性生长,及其生长的物理机制研究
2. 低维光电器件设计、构筑,性能优化和初步应用
3. 低维纳米结构在光源与显示,能源,以及环境中的应用
Preparing low-dimensional semiconductor micro/nanostructures and growth mechanism, such as ZnO, Ga2O3, SnO2, etc;
Fabrication of low-dimensional opto-electronic devices, including nanowire/microwire LEDs and LDs, Nanowire/microwire based ultraviolet photodetectors (such as avalanche photodetectors);
Study of steady-state and transient spectral detection technology, light-matter coupling of low-dimensional semiconductors, including lasing phenomena and field manipulation at microscale, hot electrons, dynamics of excitons, exciton-polariton and metallic plasmons.
承担项目情况:
作为项目负责人主持国家自然科学基金青年基金一项(项目批准号: 11404328;项目名称:基于氧化锌微米线与银薄膜的表面等离子体Fabry-Perot微腔研究),国家自然基金面上项目2项(项目批准号: 11974182项目名称:金属纳米结构调制的单根镓掺杂氧化锌微米线基电致发光器件的研究;项目批准号: 11574307 项目名称:金属纳米颗粒包裹氧化锌微米线基电致波导发光器件研究)
以项目负责人主持南京航空航天大学基本科研业务费等。
研究内容:
近年来主要从事宽禁带半导体微纳材料的生长,光电器件的设计、构筑以及初步应用研究。
理论上的研究内容主要采用电磁模拟软件比如COMSOL Multiphysics, CST Studio Suite等,针对金属纳米结构的局域表面等离子体共振,半导体光电器件特性上进行时域频域全功能数值计算与模拟。
实验上的研究内容,基于化学气相沉积方法(CVD)等实现可控性合成金属氧化物半导体微纳结构,以氧化锌为例,目前已经合成各种形貌、尺寸和结构的氧化锌微米线、纳米线;采用Ga2O3作为掺杂源实现了对单根ZnO微米线电学特性的可控调制,使得微米线的导电能力接近金属丝等;采用Sb2O3作为掺杂源实现了单根ZnO微米线p型导电特性的调控。该生长可推广至单根SnO2微纳米线、Ga2O3微纳结构的可控性生长等。
在单根微米线光电器件制备与性能研究方面
(1)首次报道了基于单根ZnO:Ga微米线的“semiconducting lamp filament”概念,该结果以“封面”的形式在“small”上发表,相应的工作也陆续的展开:一、通过调控掺杂源比如Ga2O3的比例,制备了在紫外波段发光中心波长可调的异质结二极管;二、通过p-型ZnO微米线的掺杂,首次制备ZnO微米线基同质结二极管;三、基于ZnO微米线异质结制备了雪崩探测器等;
(2)生长的单根ZnO:Ga微纳米线实现了光泵浦Fabry-Perot微腔激光、WGM微腔激光等,并采用拥有紫外表面等离激元特性的金属纳米结构修饰ZnO:Ga微纳米结构实现了表面等离激元增强型的光泵浦激光等。
(3)采用单根ZnO:Ga微纳米线,结合p-型半导体衬底、p型有机聚合物材料等,制备了异质结基、有机-无机异质结基紫外光电探测器,和自驱动紫外光电探测等,特别是基于单根微米线有机-无机异质结光电探测器拥有较为优异的柔性探测功能等。
(4)在单根 ZnO:Ga微米线紫外发光二极管和激光二极管的构筑方面,采用绝缘介质缓冲层和金属纳米材料等,实现了单根ZnO:Ga微米线纯紫外发光二极管;进一步优化器件结构实现了电驱动激光二极管等。
(5)采用拥有高结晶质量的单根ZnO:Ga微纳米结构,p型半导体衬底等实现了电驱动激子-极化激元发光二极管和激光二极管等。
指导本科生发表学术论文情况:
1 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
2 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
3 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.
4 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。
教育经历
2004.9-2010.6 中国科学技术大学 | 原子与分子物理学 | 理学博士学位 | 博士研究生毕业
2004.9-2010.6 中国科学技术大学 | 原子与分子物理学 | 理学博士学位 | 博士研究生毕业
2000.9-2004.7 大连理工大学 | 应用物理学 | 理学学士学位 | 大学本科毕业
2000.9-2004.7大连理工大学 | 应用物理学 | 理学学士学位 | 大学本科毕业
1997.9-2000.7 安徽省萧县中学 | 理科 | 无学位 | 普通高中毕业
1997.9-2000.7 安徽省萧县中学 | 理科 | 无学位 | 普通高中毕业
工作经历
2018.2-至今 南京航空航天大学
2018.2-至今 南京航空航天大学
2014.9-2018.2 中国科学院长春光学精密机械与物理研究所
2014.9-2018.2 中国科学院长春光学精密机械与物理研究所
2009.7-2014.9 中国科学院长春光学精密机械与物理研究所
2009.7-2014.9 中国科学院长春光学精密机械与物理研究所
科研项目
[1]金属纳米结构调制的单根镓掺杂氧化锌微米线基电致发光器件的研究
[2]单根氧化锌微米线基电致发光器件的构筑及其物理机制的研究
[3]金属纳米颗粒包裹氧化锌微米线基电致波导发光器件研究
[4]基于氧化锌微米线与银薄膜的表面等离子体Fabry-Perot微腔研究
授课信息:
纳米光电子学 /2020-2021 /春学期 /14课时 /0.0学分 /08202310.01

研究领域


低维半导体光电子材料的可控性生长,生长机制的研究;
紫外发光器件、激光光器件与物理研究;
纳米光子学;
低维、紫外光电探测器件构筑和应用研究"半导体光电子材料与器件"

近期论文


1. K. Tang, P. Wan, C. Kan,* M. Liu, D. Shi, and M. M. Jiang,* Continuous-wave operation of electrically driven single mode microlaser, Appl. Phys. Lett., 2022, 120, 011105.
2. Y. Sun, M. M. Jiang, B. Li,* X. Xie, C. Shan,* and D. Shen,* Electron-hole plasma Fabry-Perot lasing in a Ga-incorporated ZnO microbelt via Ag nanoparticle deposition, Opt. Express, 2022, 30(2), 740-753.
3. P. Wan, M. M. Jiang,* T. Xu, Y. Liu, X. Fang,* C. Kan,* Doping Concentration Influenced Pyro-Phototronic Effect in Self-Powered Photodetector Based on Ga-Incorporated ZnO Microwire/p+-GaN Heterojunction, Adv. Optical Mater. 2021, 2101851
4. 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
5. 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
6. 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
7. 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
8. 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
9. 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
10. 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.
11. 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
12. 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
13. 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
14. 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
15. 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
16. 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
17. 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
18. Mingming Jiang*, Peng Wan, Kai Tang, Maosheng Liu and Caixia Kan, An electrically driven whispering gallery polariton microlaser, Nanoscale, 2021,13, 5448-5459
19. 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
20. 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
21. 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
22. 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
23. 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
24. 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
25. 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
26. 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.
27. 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
28. 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
29. 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
30. 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
31. 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
32. 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
33. W. Mao, Mingming Jiang,* J. L. Ji, Y. Liu and C. X. Kan, Fluorescent incandescent light sources from individual quadrilateral ZnO microwire via Ga-incorporation, Opt. Express, 2019, 27, 33298-33311
34. J. L. Ji, Mingming Jiang,* W. Q. Mao, P. Wan and C. X. Kan, Facile Synthesized ZnO Microcrystals for Random Microlaser and Incandescent-type Source, CrystEngComm, 2019, 21, 6772-6783
35. Z. G. Li, G. H. He, Mingming Jiang,* J. L. Ji, C. X. Shan and D. Z. Shen, Electrical-pumping spasing action from cross-stacked microwires, J. Mater. Chem. C, 2019, 7, 10933-10944.
36. Mingming Jiang, Wangqi Mao, Xiangbo Zhou, Caixia Kan, and Daning Shi, Wavelength-Tunable Waveguide Emissions from Electrically Driven Single ZnO/ZnO:Ga Superlattice Microwires, ACS Appl. Mater. Interfaces 2019, 11, 11800−11811
37. B. Zhou, M. M. Jiang, H. Dong, W. Zheng, Y. Huang, J. Han, A. Pan, L, Zhang, High-Temperature Upconverted Single-Mode Lasing in 3D Fully Inorganic Perovskite Microcubic Cavity, ACS Photonics 2019,6,793-801
38. Z. G. Li, M. M. Jiang,* Y. Z. Sun, Z. Z. Zhang, B. H. Li, H. F. Zhao, C. X. Shan, and D. Z. Shen, Electrically Pumped Fabry-Perot Microlasers From Single Ga-Doped ZnO Microbelt based Heterostructure Diodes, Nanoscale, 2018, 10, 18774–18785
39. Y. Liu, M. M. Jiang,* Z. Z. Zhang, B. H. Li, H. F. Zhao, C. X. Shan, and D. Z. Shen, Electrically Excited Hot-Electrons Dominated Fluorescent Emitters Using Individual Ga-doped ZnO Microwires via Metal Quasiparticle Films Decoration, Nanoscale, 2018,10, 5678-5688
40. M. M. Jiang, G. H. He, H. Y. Chen, Z. Z. Zhang, L. X. Zheng, C. X. Shan, D. Z. Shen, and X. S. Fang,Wavelength-Tunable Electroluminescent Light Sources from Individual Ga-Doped ZnO Microwires,Small 2017,13, 1604034
41. Gaohang He, Mingming Jiang,* Zhenzhong Zhang, Binghui Li, Chongxin Shan and Dezhen Shen,Sb-doped ZnO Microwires: Emitting Filament and Homojunction Light-emitting Diodes,J. Mater. Chem. C, 2017, 5, 10938
42. Y. Liu, M. M. Jiang,* G. H. He, S. F. Li, Z. Z. Zhang, B. H. Li, C. X. Shan and D. Z. Shen,Wavelength-tunable Ultraviolet Electroluminescence from Ga-doped ZnO Microwires, ACS Appl. Mater. Interfaces 2017, 9(46), 40743-40751
43. G. He, M. M. Jiang,* L. Dong, Z. Z. Zhang, B. H. Li, C. X. Shan and D. Z. Shen,Near-infrared light-emitting devices from individual heavily Ga-doped ZnO microwires,J. Mater. Chem. C, 2017,5, 2542-2551
44. J. Lu, † M. M. Jiang,† M. Wei, C. Xu, S. Wang, Z. Zhu, F. Qin, Z. Shi, C. Pan, Plasmon-induced accelerated exciton recombination dynamics in ZnO/Ag hybrid nanolasers, ACS Photonics 2017, 4, 2419−2424
45. H. Chen,† L. Su,† M. M. Jiang,† X. S. Fang,Highly Desirable Photodetectors Derived from Versatile Plasmonic Nanostructures, Adv. Funct. Mater. 2017, 1704181
[1] 阚彩侠,,等.Construction of silica-encapsulated gold-silver core-shell nanorod: Atomic facets enrichment and plasmon enhanced catalytic activity with high stability and reusability.MATERIALS & DESIGN,2019
[2] 阚彩侠,,等.Alloyed Au-Ag nanorods with desired plasmonic properties and stability in harsh environments.Photon. Res.,2019
[3] 姜明明,姜明明,姜明明等.Single microwire based smart color-switchable light-emitting diode.Optics and Lasers in Engineering,2020
[4] 姜明明,姜明明,姜明明等.Tailoring the electroluminescence of a single microwire based heterojunction diode using Ag nanowires deposition.CrystEngComm,2020
[5] 姜明明,姜明明,姜明明等.Microcrystal modulated exciton-polariton emissions from single ZnO@ZnO:Ga microwire.Photonics Research,2020
[6] 姜明明,姜明明,姜明明等.Hybrid quadrupole plasmon induced spectrally pure ultraviolet emission from a single AgNPs@ZnO:Ga microwire based heterojunction diode.Nanoscale Adv.,2020
[7] 姜明明,姜明明,姜明明等.Vertically-aligned ZnO microrod for highbrightness light source.CrystEngComm,2020
[8] 姜明明,姜明明,姜明明等.High performance lasing in a single ZnO microwire using Rh nanocubes.Optics Express,2020
[9] 姜明明,姜明明,姜明明等.Hot electron injection induced electron–hole plasma lasing in a single microwire covered by large size Ag nanoparticles.CrystEngComm,2020
[10] 姜明明,姜明明,姜明明等.Employing rhodium tripod stars for ultraviolet plasmon enhanced Fabry–Perot mode lasing.CrystEngComm,2020
[11] 姜明明,姜明明,姜明明等.Plasmon-enhanced high-performance Si-based light sources by incorporating alloyed Au and Ag nanorods.CrystEngComm,2020
[12] 姜明明,,等.Facile synthesized ZnO microcrystals for random microlasers and incandescent-type light sources.Crystengcomm,2019
[13] 姜明明,,等.Wavelength-Tunable Waveguide Emissions from Electrically Driven Single ZnO/ZnO:Ga Superlattice Microwires.ACS APPLIED MATERIALS & INTERFACES,2019
[14] 姜明明,,等.Fluorescent incandescent light sources from individual quadrilateral ZnO microwire via Ga-incorporation.Opt. Express,2019

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