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刘绍鼎

日期:2019-03-13   作者:   点击数:

名:

刘绍鼎

称:

教授

位:

博士

导:

是,光学工程(学硕)

 

控制工程,集成电路工程(专硕)

导:

是,光学工程

箱:

liushaoding@tyut.edu.cn

门:

新型传感器与智能控制重点实验室

 

研究方向

1.微纳非线性光学;

2.表面等离激元光子学;

3.微纳光子器件。

 

主讲课程:《光电显示技术》、《大学物理》、《大学物理实验》(本科);《微电子学发展概论》、《光电检测技术》(研究生)

 

个人经历

 

学习经历

2004.9-2009.6 武汉大学 光学 博士

2000.9-2004.6 武汉大学 物理学基地班 学士

 

工作经历

2014.8-至今 太原理工大学 教授(破格)

2011.1-2014.7 太原理工大学 讲师

2009.7-2010.12 新科技术开发有限公司 研发工程师

 

科研项目

1. 基于等离激元分子阵列的多重表面晶格共振及增强二次谐波发射特性的研究(国家面上基金11874276),64万元,2019.01-2022.12

2. 基于表面等离激元分子阵列的超快非线性纳光子器件(山西省重点研发计划201903D121131),15万元,2019.12-2021.12

3. 面向生物传感的表面等离激元Fano共振增强光微流激光研究(国家面上基金11574228),73万元,2016.01-2019.12

4. 金属纳米颗粒聚合体中多重Fano共振效应的研究(国家青年基金11304219),25万元,2014.01-2016.12

5. 基于贵金属纳米颗粒Fano共振增强光微流激光高灵敏度生物分子检测到研究(山西省优秀青年基金项目),15万元,2016.01-2018.12

6. 面向生物传感器的贵金属纳光子器件的研究(山西省青年基金项目),5万元,2012.01-2014.12

 

科研成果

【论文】

1.    H.-G. Hu, M. Yang, P. Yue, Y.-T. Bai, W.-J. Wang, and S.-D. Liu*, "Second-harmonic generation with metal/dielectric/metal hybridized nanoantennas: enhanced efficiency, reduced mode volume and ideal magnetic/electric dipole scattering," Journal of Physics D: Applied Physics (2020).

2.    Y. Zhang, P. Yue, J.-Y. Liu, W. Geng, Y.-T. Bai, and S.-D. Liu*, "Ideal magnetic dipole resonances with metal-dielectric-metal hybridized nanodisks," Optics Express 27, 16143-16155 (2019).

3.    S.-D. Liu*, P. Yue, M.-Q. Zhu, J. Wen, and D. Lei*, "Restoring the silenced surface second-harmonic generation in split-ring resonators by magnetic and electric mode matching," Optics Express 27, 26377-26391 (2019).

4.    S.-D. Liu*, P. Yue, S. Zhang, M. Wang, H. Dai, Y. Chen, Z.-Q. Nie, Y. Cui, J.-B. Han*, and H. Duan*, "Metasurfaces Composed of Plasmonic Molecules: Hybridization Between Parallel and Orthogonal Surface Lattice Resonances," Advanced Optical Materials (2019).

5.    S.-D. Liu*, J.-L. Fan, W.-J. Wang, J.-D. Chen, and Z.-H. Chen, "Resonance Coupling between Molecular Excitons and Nonradiating Anapole Modes in Silicon Nanodisk-J-Aggregate Heterostructures," Acs Photonics 5, 1628-1639 (2018).

6.    S.-D. Liu*, Z.-X. Wang, W.-J. Wang, J.-D. Chen, and Z.-H. Chen, "High Q-factor with the excitation of anapole modes in dielectric split nanodisk arrays," Optics Express 25, 22375-22387 (2017).

7.    S. Zhang, G.-C. Li, Y. Chen, X. Zhu, S.-D. Liu*, D. Y. Lei*, and H. Duan*, "Pronounced Fano Resonance in Single Gold Split Nanodisks with 15 nm Split Gaps for Intensive Second Harmonic Generation," Acs Nano 10, 11105-11114 (2016).

8.    W.-C. Zhai, T.-Z. Qiao, D.-J. Cai, W.-J. Wang, J.-D. Chen, Z.-H. Chen, and S.-D. Liu*, "Anticrossing double Fano resonances generated in metallic/dielectric hybrid nanostructures using nonradiative anapole modes for enhanced nonlinear optical effects," Optics Express 24, 27858-27869 (2016).

9.    S.-D. Liu, E. S. P. Leong, G.-C. Li, Y. Hou, J. Deng, J. H. Teng, H. C. Ong, and D. Y. Lei*, "Polarization-Independent Multiple Fano Resonances in Plasmonic Nonamers for Multimode-Matching Enhanced Multiband Second-Harmonic Generation," Acs Nano 10, 1442-1453 (2016).

10.   S.-D. Liu*, X. Qi, W.-C. Zhai, Z.-H. Chen, W.-J. Wang, and J.-B. Han, "Polarization state-based refractive index sensing with plasmonic nanostructures," Nanoscale 7, 20171-20179 (2015).

11.   D.-J. Cai, Y.-H. Huang, W.-J. Wang, W.-B. Ji, J.-D. Chen, Z.-H. Chen, and S.-D. Liu*, "Fano Resonances Generated in a Single Dielectric Homogeneous Nanoparticle with High Structural Symmetry," Journal of Physical Chemistry C 119, 4252-4260 (2015).

12.   L.-Y. Yin, Y.-H. Huang, X. Wang, S.-T. Ning, and S.-D. Liu*, "Double Fano resonances in nanoring cavity dimers: The effect of plasmon hybridization between dark subradiant modes," Aip Advances 4 (2014).

13.   S.-D. Liu*, M.-J. Zhang, W.-J. Wang, and Y.-C. Wang, "Tuning multiple Fano resonances in plasmonic pentamer clusters," Applied Physics Letters 102 (2013).

14.   S.-D. Liu*, Y.-B. Yang, Z.-H. Chen, W.-J. Wang, H.-M. Fei, M.-J. Zhang, and Y.-C. Wang, "Excitation of Multiple Fano Resonances in Plasmonic Clusters with D-2h Point Group Symmetry," Journal of Physical Chemistry C 117, 14218-14228 (2013).

15.   S.-D. Liu*, Z. Yang, R.-P. Liu, and X.-Y. Li, "Radiative damping suppressing and refractive index sensing with elliptical split nanorings," Applied Physics Letters 100 (2012).

16.   S.-D. Liu*, Z. Yang, R.-P. Liu, and X.-Y. Li, "Multiple Fano Resonances in Plasmonic Heptamer Clusters Composed of Split Nanorings," Acs Nano 6, 6260-6271 (2012).

17.   S.-D. Liu*, Z. Yang, R.-P. Liu, and X.-Y. Li, "Plasmonic-induced optical transparency in the near-infrared and visible range with double split nanoring cavity," Optics Express 19, 15363-15370 (2011).

18.   S.-D. Liu*, Z. Yang, R.-P. Liu, and X.-Y. Li, "High Sensitivity Localized Surface Plasmon Resonance Sensing Using a Double Split NanoRing Cavity," Journal of Physical Chemistry C 115, 24469-24477 (2011).

【专利】

1. 中国专利, 刘绍鼎 ; 李国辉; 翟武超; 齐信; 蔡东进; 王文杰,基于偏振态调制的等离激元生物传感器、装置及使用方法,授权, 2019.3.15-ZL201510647863.2

2. 中国专利, 刘绍鼎 ; 刘杰; 岳鹏; 董红霞; 胡红刚; 耿伟; 贾卓楠; 刘钧妍; 栗正华,一种产生多重表面晶格共振的结构及其应用,申请 , 2019.8.7CN201910726541.5

3. 中国专利, 刘绍鼎 ; 刘杰; 侯浩杰; 肖博文; 白雅婷; 董红霞; 张婷婷, ,申请,一种完美磁偶极纳米天线设计方法, 2019.4.4CN201910271757.7

4. 中国专利, 刘绍鼎 ; 刘杰; 贾卓楠; 岳鹏; 肖博文; 张垚; 胡红刚,一种基于表面等离子处理技术的弹性材料压紧拉伸装置,申请 , 2018.7.27CN201810838444.0

5. 中国专利, 陈景东 ; 冀炜邦; 王文杰; ; 范旭东, ,授权,刘绍鼎一种常温下聚苯乙烯微流控芯片的制备方法2018.5.25-2036.11.9ZL201610985489.1

【著作】

1.         刘绍鼎.《金属纳米体系表面等离激元共振及应用》,国防工业出版社,2013

2.         王取泉、程木田、刘绍鼎、王霞、周慧君.基于半导体量子点的量子计算量子信息》,中国科学技术大学出版社,2009

 

荣誉与奖励

1. 山西省省委组织部三晋英才青年拔尖骨干人才(2019

2. 山西省教育厅青年三晋学者, 50万元(2016

3. 山西省省委组织部青年拔尖人才, 60万元(2016

4. 山西省教育厅高等学校优秀青年学术带头人,20万元(2014)。

 

 

数据更新日期:2020.2.25