个人简历

宁廷银,男,1981年10月生,教授,博士生导师。2003年毕业于BETVLCTOR伟德官方网址物理系,获得学士学位,2009年毕业于中科院物理研究所光物理重点实验室,获得博士学位。2011.01-2013.12芬兰Tampere University of Technology (现Tampere University) 物理系从事博士后研究。主要研究方向为非线性光学及微纳光子学,在Nano Letters, Nanophotonics, Applied Physics Letters,Optics Letters,Optics Express等国际期刊发表论文90余篇,授权国家发明专利10余项。主持及参与多项国家自然科学基金与山东省基金项目。

招生方向

博士研究生招生专业:光学

硕士研究生招生专业:光学;科学与技术教育

研究方向   

(1) 非线性光学 

(2) 微纳光子学

科研项目

1. 国家自然科学基金面上项目,2022.01-2025.12,主持

2. 国家自然科学基金青年基金,2015.01-2017.12,主持

3. 山东省自然科学基金面上基金,2019.07-2022.06,主持

4. 国家自然科学基金重大研究计划(培育),2020.01-2022.12,参与

5. 国家自然科学基金面上基金,2016.01-2019.12,参与

6. 山东省自然科学基金面上基金,2016.11-2019.06,参与

论文成果

发表SCI收录论文90余篇,部分代表论文如下:

1. T. Ning, L. Zhao*, Y. Huo, Y. Cai, and Y. Ren*, Giant enhancement of second harmonic generation from monolayer 2D materials placed on photonic moiré superlattice, Nanophotonics, 12(21), 4009-4016 (2023).

2. B. Guo, Z. Zhang, Y. Huo, S. Wang*, and T. Ning*, Modulation of epsilon-near-zero wavelength and enhancement of third-order optical nonlinearity in ITO/Au multilayer films, Chines Optics Letters, 21, 013602 (2023).

3. D. Liu, Y. Ren*, Y. Huo, Y. Cai, and T. Ning,* Second harmonic generation in plasmonic metasurfaces enhanced by symmetry-protected dual bound states in the continuum, Optics Express, 31(14), 23127-23139 (2023).

4. T. Ning,* Y. Ren, Y. Huo, and Y. Cai, Efficient high harmonic generation in nonlinear photonic moiré superlattice, Frontiers of Physics, 18, 52305 (2023).

5. X. Li, Y. Huo, Q. Yue, and T. Ning*, Low-voltage electro-optic switching and modulation of second harmonic generation in lithium niobate resonant waveguide gratings assisted by quasi-BICs, Optics and Laser Technology, 160, 109083 (2023).

6. Z. Zhang, B. Guo, Y. Huo, S. Wang*, and T. Ning*, Grain orientation governed third-order optical nonlinearity in indium tin oxide films, Infrared Physics & Technology, 128, 104487 (2023).

7. Z. Feng, T. Ning,* N. Tian, and Y. Zhao*, All-optical self-manipulation of light flow in on-chip topological waveguides based on synthetic dimension, Optics Express, 31, 31108-31115 (2023).

8. D. Liu, Y. Huo, Y. Ren,* Y. Cai, and T. Ning,* Efficient second harmonic generation at quasi-bound states in the continuum in hybrid nanostructures of 2D plasmonic array and waveguide, Results in Physics, 53, 106923 (2023).

9. W. Liang, G. Li, Q. Zhou*, Z. Zhang, S. Zhang, T. Ning, P. Zhang, Y. Deng, C. Zhang, C. Ge*, and K. Jin, Resonance dependence of electrically reconfigurable VO2-based THz metadevice for memory information processing, Applied Physics Letters, 122, 071702 (2023).

10. Y. Deng, Q.Zhou, P. Zhang, W. Liang, T. Ning, Y. Shi, and C. Zhang, Multifunctional graphene metadevice using dual metamaterial induced transparency in terahertz regime, Carbon, 203, 753-760 (2023).

11. D. Liu, X. Li, Y. Huo, S. Jiang, Q. Yue, and T. Ning*, Evolution of optical harmonic generation near bound-states in the continuum in hybrid plasmonic-photonic structures, Optics Express, 30, 26455-26463 (2022).

12. Z. Zhang, D. Liu, Y. Huo and T. Ning*, Ultralow-level all-optical self-switching in a nanostructured moiré superlattice, Optics Letters, 47, 5260-5263 (2022).

13. J. Feng, J. Gao, W Yang, R. Liu, M. Shafi, Z. Zha, C. Liu, S. Xu, T. Ning*, and S. Jiang*, LSPR optical fiber sensor based on 3D gold nanoparticles with monolayer graphene as a spacer, Optics Express 30, 10187-10198 (2022).

14. P. Zhang, T. Cai, Q. Zhou*, G. She*, W. Liang, Y. Deng, T. Ning, W. Shi, L. Zhang, and C. Zhang, Ultrahigh Modulation Enhancement in All-Optical Si-Based THz Modulators Integrated with Gold Nanobipyramids, Nano Letters 22, 1541-1548 (2022).

15. Y. Huo*, X. Zhang, M. Yan, K. Sun, S. Jiang, T. Ning, and L. Zhao*, Highly-sensitive sensor based on toroidal dipole governed by bound state in the continuum in dielectric non-coaxial core-shell cylinder, Optics Express 30(11), 19030-19041 (2022).

16. Y. Deng, Q. Zhou*, P. Zhang, N. Jiang, T. Ning*, W. Liang, and C. Zhang, Heterointerface-Enhanced Ultrafast Optical Switching via Manipulating Metamaterial-Induced Transparency in a Hybrid Terahertz Graphene Metamaterial, ACS Applied Materials & Interfaces, 13, 13565-13575 (2021).

17. X. Li, Z. Zhang, Y. Huo*, L. Zhao, Q. Yue, S. Jiang, H. Liang, Y. Gao*, and T. Ning*, Broadband and Ultra-Low Threshold Optical Bistability in Guided-Mode Resonance Grating Nanostructures of Quasi-Bound States in the Continuum, Nanomaterials, 11, 2843 (2021).

18. Z. Zhang, X. Li, Y. Huo and T. Ning*, Impact of nonlocal response in plasmonic metasurfaces on four-wave mixing, New Journal of Physics, 23,125005 (2021).

19. J. Liang, T. Ning, J. Fan, M. Zhang, H. Su, Y. Zeng, and H. Liang*, Metallic waveguide transmitarrays for dual-band multibeam terahertz antennas, Applied Physics Letters, 119, 253501 (2021).

20. T. Ning, X. Li, Z. Zhang, Y. Huo, Q. Yue, L. Zhao, and Y. Gao*, Ultimate conversion efficiency of second harmonic generation in all-dielectric resonators of quasi-BICs in consideration of nonlinear refraction of dielectrics, Optics Express, 29(24), 17286-17294 (2021).

21. W. Bi, X. Zhang, M. Yan, L. Zhao, T. Ning*, and Y. Huo*, Low-threshold and controllable nanolaser based on quasi-BIC supported by an all-dielectric eccentric nanoring structure, Optics Express, 29(8), 12634-12643 (2021).

22. X. Li, Y. Tan, L. Yin, Y. Huo, L. Zhao, Q. Yue and T. Ning*, Bistability of optical harmonic generation in monolayer graphene plasmonics, Optics Letters 46, 1029-1032 (2021).

23. J. Liang, T. Ning, J. Fan, Z. Wu, M. Zhang, H. Sun, Y. Zeng, and H. Liang*, Metallic waveguide transmitarray antennas for generation multibeams with high gain and optional polarized states in the F-band, Journal of lightwave technology, 39(22) 7210-7216 (2021).

24. T. Ning, X. Li, Y. Zhao, L. Yin, Y. Huo, L. Zhao, and Q. Yue*, Giant enhancement of harmonic generation in all-dielectric resonant waveguide gratings of quasi-bound states in the continuum, Optics Express 28(23) 34024-34034 (2020). 

25. T. Ning*, H. Liang, Y. Huo, and L. Zhao, Optical bistability in gap-plasmon metasurface in consideration of classical nonlocal effects, Optics Express 28(14) 20532 (2020).

26. X. Feng, J. Liu, W. Yang, X. Yu, S. Jiang, T. Ning, and J. Liu*, Broadband Indium Tin Oxide nanowire arrays as saturable absorbers for solid-state lasers, Optics Express, 28(2), 1554-1560 (2020).

27. X. Yu, B. Ding, H. Lu, Y. Huo,* Q. Peng, X. Xiu, C. Zhang, C. Yang, S. Jiang, B. Man, T. Ning*, Third-order optical nonlinearity in nonstoichiometric amorphous silicon carbide films, Journal of Alloys and Compounds 794, 518-524 (2019).

28. Z. Wu, T. Ning, J. Li, M. Zhang, H. Su, I. Li, and H. Liang*, Tunable photonic-like modes in graphene-coated nanowires, Optics Express 27, 35238-35244 (2019).

29. T. Ning*, H. Lu, Y. Zhou, and B. Man, Decrease and enhancement of third-order optical nonlinearity in metal–dielectric composite films, Applied Physics Letters 112, 151904 (2018).

30. J. Guo, T. Ning*, Y. Han, Y. Sheng, C. Li, X. Zhao, Z. Lu, B. Man, Y. Jiao, S. Jiang*, Preparation, characterization, and nonlinear optical properties of hybridized graphene @ gold nanorods nanocomposites, Applied Surface Science 433, 45-50 (2018).

31. Z. Li, S. Jiang, Y. Huo*, T. Ning, A. Liu, C. Zhang, Y. He, M. Wang, C. Li, and B. Man*,3D silver nanoparticles with multilayer grapheme oxide as a spacer for surface enhanced Raman spectroscopy analysis, Nanoscale, 10(13), 5897-5905 (2018).

32. K. Koskinen, R. Czaplicki, A. Slablab, T. Ning, A. Hermans, B. Kuyken, V. Mittal, G. S. Murugan, T. Niemi, R. Baets, and M. Kauranen, Enhancement of bulk second-harmonic generation from silicon nitride films by material composition, Optics Letters, 42, 5030 (2017).

33. T. Ning, S. Gao, Y. Huo, S. Jiang, C. Yang, J. Li, Y. Zhao, and B. Man*, Third-harmonic generation from gold nanowires of rough surface considering classical nonlocal effect, Optics Express, 25(6), 6372-6382 (2017).

34. T. Ning, C. Tan, T. Niemi, M. Kauranen, and G. Genty*, Enhancement of second-harmonic generation from silicon nitride with gold gratings, Optics Express 23,30695 (2015).

35. M. Zdanowicz*, J. Harra, J. Makela, E. Heinonen, T. Ning, M. Kauranen, and G. Genty, Ordered multilayer silica-metal nanocomposites for second-order nonlinear optics, Applied Physics Letters 103, 251907 (2013).

36. T. Ning, O. Hyvarinen, H. Pietatinen, T. Kaplas, M. Kauranen and G. Genty*, Third-harmonic UV generation in silicon nitride nanostructures, Optics Express 21, 2012 (2013).

37. T. Ning*, H. Pietatinen, O. Hyvarinen, J. Simonen, G. Genty, and M. Kauranen, Strong second-harmonic generation in silicon nitride films, Applied Physics Letters 100, 161902 (2012). (Highlighted by Nature Photonics, 6, 412 (2012)).

38. T. Ning*, H. Pietatinen, O. Hyvarinen, R. Kumar, T. Kaplas, M. Kauranen and G. Genty, Efficient second-harmonic generation in silicon nitride resonant waveguide gratings, Optics Letters, 37, 4296 (2012).

39. C. Min, P. Wang*, C. Chen, Y. Deng, H. Ming, T. Ning, Y. Zhou, and G. Yang, All-optical switching in subwavelength metallic grating structure containing nonlinear optical materials, Optics Letters 33, 869 (2008). (Highlighted by Nature Photonics, 2, 264 (2008)).

荣誉奖励

1. 2023年山东省优秀硕士论文指导老师

2. 2023年全国高等学校电子信息类专业青年教师授课比赛华东赛区三等奖

3. 2022年BETVLCTOR伟德官方网址优秀硕士学位论文指导教师

4. 2021、2022、2023年指导研究生获得国家奖学金

5. 2021年BETVLCTOR伟德官方网址伟德国际1946源于英国优秀研究生导师

6. 2021年山东省研究生优秀成果奖三等奖指导教师

7. 2021年BETVLCTOR伟德官方网址优秀本科毕业论文指导教师

8. 2021、2022年山东省大学物理竞赛一等奖指导教师

9. 2020年BETVLCTOR伟德官方网址优秀硕士学位论文指导教师

10. 2018年BETVLCTOR伟德官方网址优秀硕士学位论文指导教师