孟令雁 副教授

发布时间:2023-02-26文章来源: 浏览次数:


本人资料

通讯地址:山东省曲阜市静轩西路57

电子邮件:lymeng@qfnu.edu.cn

办公地址:15vip太阳集团15vip太阳集团202


教育背景

20109-201512月,硕博连读,毕业于厦门大学

20069-20107月, 学士,毕业于滨州学院


工作经历

20191-至今  15vip太阳集团15vip太阳集团 副教授

20167-201812月  15vip太阳集团15vip太阳集团 讲师


教学任务

承担理工科本科生《电磁学》、《光学》和《大学物理》等课程的教学工作

研究方向

主要从事表面等离激元光学与光谱方面的研究,研究方向主要集中在等离激元增强拉曼/荧光光谱及其在二维材料应用的研究


科研项目

1. 国家自然科学基金青年项目,11704222,PERS定向散射机理及其应用,主持

2. 山东省自然科学基金面上项目,ZR2022MA059,针尖-过渡金属硫化物异质结构中等离子体与激子相互作用及其增强光谱研究,主持

3. 国家自然科学基金面上项目,11474239,界面SPR模式及近场增强光谱学研究,参与

4. 国家自然科学基金面上项目,11474350,使用具有极高空间分辨的中、远红外近场光学成像技术来研究石墨烯材料的电导率分布变化,参与

5.山东省自然科学基金博士项目,ZR2018BA035, MeV离子微束在绝缘宏观玻璃管中的传输机制的理论研究,参与


发表论文

1. Yi Cao, Yanting Feng, Chenyu Li, Wenwen Li, Yuqing Chen*, Jindou Ru, Lingyan Meng*, Mengtao Sun*, Plasmonic gradient and plexcitonic effects in single-molecule tip-enhanced (resonance) Raman spectroscopy. The Journal of Physical Chemistry C, 2023, 127, 476-489.

2. Yanting Feng, Yu Wang, Fenglan Shao*, Lingyan Meng*, Mengtao Sun*, Surface-enhanced coherent anti-Stokes Raman scattering based on coupled nanohole-slit arrays. Physical Chemistry Chemical Physics, 2022, 24, 13911.

3. Yu Wang, Mengtao Sun*, and Lingyan Meng*, Tip-enhanced two-photon-excited fluorescence of monolayer MoS2. Applied Surface Science, 2022, 576, 151835.

4. Lingyan Meng*, Yu Wang, Man Gao, and Mengtao Sun*, Electromagnetic field gradient-enhanced Raman scattering in TERS configurations. The Journal of Physical Chemistry C, 2021, 125, 5684-5691.

5. Yanting Feng, Man Gao, Yu Wang, Zhilin Yang*, and Lingyan Meng*, Surface and coherent contributions of plasmon fields to ultraviolet tip-enhanced coherent anti-Stokes Raman scattering. Nanotechnology, 2020, 31, 395204.

6. Yanting Feng, Man Gao, Yu Wang, Lingyan Meng*, and Mengtao Sun*. Plexciton for surface enhanced Raman scattering and emission. Journal of Raman spectroscopy, 2020, 51, 476-482.

7. Zhenwei Yang, Lingyan Meng (), et al. 3D hotspots platform for plasmon enhanced Raman and second harmonic generation spectroscopies and quantitative analysis. Advanced Optical Materials, 2019, 1901010.

8. Man Gao, Mengtao Sun*, and Lingyan Meng*. Tip-enhanced spectroscopy of 2D black phosphorus. Journal of Raman spectroscopy, 2019, 50, 1058-1064.

9. Genglin Li, Man Gao, Xiaohan Xu, Yingyu Li, Lingyan Meng*, and Zhilin Yang*. Plasmonic enhancement and directional emission for side-illumination tip-enhanced spectroscopy. Optics Communications, 2019, 442, 50-55.

10. Lingyan Meng, Man Gao, and Mengtao Sun. Deep ultraviolet tip-enhanced fluorescence. Nanotechnology, 2019, 30, 035202.

11. Lingyan Meng and Zhilin Yang. Directional surface plasmon-coupled emission of tilted-tip enhanced spectroscopy. Nanophotonics, 2018, 7, 1325-1332.

12. Lingyan Meng and Mengtao Sun. Tip-enhanced photoluminescence spectroscopy of monolayer MoS2. Photonics Research, 2017, 5, 745-749.  

13. Lingyan Meng, Mengtao Sun, Jianing Chen, and Zhilin Yang. A nanoplasmonic strategy for precision in-situ measurements of tip-enhanced Raman and fluorescence spectroscopy. Scientific Reports, 2016, 6, 19558.

14. Lingyan Meng, Zhilin Yang, Jianing Chen and Mengtao Sun. Effect of electric field gradient on sub-nanometer spatial resolution of tip-enhanced Raman spectroscopy. Scientific Reports, 2015, 5, 9240.

15. Lingyan Meng, Tengxiang Huang, Xiang Wang, et al. Gold-coated AFM tips for tip-enhanced Raman spectroscopy: theoretical calculation and experimental demonstration. Optics Express, 2015, 23, 13804-13813.

16. Yanting Feng, Lingyan Meng(共同一作), Jinfeng Zhao, et al. Bioorganic dye-sensitized solar cell of carotenoid–pheophytin a–TiO2. RSC Advances, 2014, 4, 63016-63024.

17. Jin-Hui Zhong, Xi Jin, Lingyan Meng, Xiang Wang, Hai-Sheng Su, Zhi-Lin Yang, Christopher Williams, and Bin Ren. Probing the electronic and catalytic properties of a bimetallic surface at 3 nm resolution. Nature Nanotechnology, 2016, 241, 1-5.

18. Ya Yan, Lingyan Meng, Wenqiang Zhang, Yan Zheng, Shuo Wang, Bin Ren, Zhilin Yang, and Xiaomei Yan. High-through single-particle analysis of metal-enhanced fluorescence in free solution using Ag@SiO2 core-shell nanoparticles. ACS Sensors, 2017, 2, 1369-1376.

19. Shu Chen, Lingyan Meng, et al. How to light special hot spots in multiparticle-film configurations. ACS nano, 2016, 10, 581-587.

20. Shaoxin Shen, Lingyan Meng, et al. Plasmon-enhanced second harmonic generation nanoruler with ultrahigh sensitivities. Nano letters, 2015, 15, 6716-6721.

21. Yunran Zhai, Lingyan Meng, Lijun Xu, Lin Yuan, Zhilin Yang, Jiawen Hu, and Xiangfeng Duan, Strong fluorescence enhancement with silica-coated Au nanoshell dimmers. Plasmonics 2015, 2, 263-269.

22. Shu Chen, Lingyan Meng, et al. Fano interference between higher localized and propagating surface plasmon modes in nanovoid arrays. Plasmonics, 2015, 10, 71-76.

23. Haiqiong Wen, Lingyan Meng, et al. Sub-5 nm nanobowl gaps electrochemically templated by SiO2-coated Au nanoparticles as surface-enhanced Raman scattering hot spots. Chem. Commun., 2014, 50, 3958-3961.

24. Honglin Liu, Zhilin Yang, Lingyan Meng, et al. Three-dimensional and time-ordered surface-enhanced Raman scattering hotspot matrix. J. Am. Chem. Soc. 2014, 136, 5332-5341.

25. Xiang Wang, Maohua Li, Lingyan Meng, et al. Probing the location of hot spots by surface-enhanced Raman spectroscopy: toward uniform substrates. ACS Nano, 2014, 8, 528-536.

26. Shu Chen, Zhilin Yang, Lingyan Meng, et al. Electromagnetic enhancement in shell-isolated nanoparticle enhanced Raman scattering from gold flat surfaces. J. Phys. Chem. C 2015, 119, 5246-5251.

27. Zhicong Zeng, Shengchao Huang, Deyin Wu, Lingyang Meng, et al. Electrochemical tip-enhanced Raman spectroscopy. J. Am. Chem. Soc., 2015, 137, 11928-11931.

28. Sixin Huo, Qian Liu, Shuohui Cao, Weipeng Cai, Lingyan Meng, et al. Surface plasmon-coupled directional enhanced Raman scattering by means of the reverse kretschmann configuration. J. Phys. Chem. Lett., 2015, 6, 2015-2019.

29. Chaoyu Li, Meng Meng, Shengchao Huang, Lei Li, Shaorong Huang, Shu Chen, Lingyan Meng, et al. "Smart" Ag nanostructures for plasmon-enhanced spectroscopies. J. Am. Chem. Soc. 2015, 137, 13784-13787.


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