1、 基本情况
姓名:戴小玉,性别:女,民族:汉,出生年月:1979年7月,职称职位:博士/副教授/硕士生导师。
主要研究方向:拓扑电路、非线性光学及全光器件、微结构光子学及器件。近年来,主持国家自然科学基金2项,深圳市项目2项,湖南省自然科学基金1项,中国博士后科学基金面上项目1项,教育部博士点项目1项,留学回国人员项目1项,获得了深圳市高层次人才“孔雀计划” C 类人才计划支助。在Optics Express,Photonics Research, Sensors and Actuators B: Chemical,Nanophotonics等国际重要刊物上发表SCI论文80余篇,论文被引2800余次,h-index 31.
招生信息:招收电子科学与技术的学术型研究生、电子信息专业型硕士
联系电话:15602452670 E-mail:xiaoyudai@hnu.edu.cn
2、 教育经历
1998年9月至2002年6月,重庆大学电气学院电气及其自动化专业,获学士学位;
2004年9月至2006年6月,湖南大学物理与微电子科学学院理论物理专业,硕博连读;
2006年7月至2009年09月,湖南大学信息工程学院计算机应用技术专业,获博士学位;
3、 工作经历
2002年7月至2004年8月,江西九江学院,材料学院,助教;
2008年4月至2009年4月,美国普渡大学,电子工程系,访问学者;
2011年5月至2014年2月,湖南大学,物理与微电子科学学院,博士后;
2009年10月至2014年3月,湖南大学,电气与信息工程学院,助理教授;
2012年12月至2014年3月,新加坡南洋理工大学,电气与电子工程学院,访问学者;
2014年4月至2020年6月, 深圳大学,微纳光电子学研究院,副教授;
2020年6月至今,湖南大学,电气与信息工程学院,副教授;
4、 主讲课程
《大学物理》、《大学物理实验》、《模拟电子技术》、《数字电子技术》、《测控电路》、《电路》
5、 近年来主持和参与的部分科研和教改项目
1)国家自然科学基金面上项目,61875133,双曲超表面等离子体特性及其在高灵敏度SPR生物传感器中的应用,2019/01-2022/12,60 万元,在研,主持。
2)深圳市科技计划项目,JCYJ20180305124842330,基于双曲超材料的超灵敏SPR 生物传感器研究,2019/03-2021/03,40 万元,在研,主持。
3)国家自然科学基金青年基金,61505111,石墨烯基双曲超材料的可调光学特性及其应用,2016/01-2018/12,20 万元,结题,主持。
4)深圳市科技计划项目,JCYJ20150324141711667,石墨烯双曲超材料基本光学特性研究和主动器件的设计,2015/8-2018/08,30 万元,结题,主持。
5)深圳市高层次人才项目(孔雀计划 C 类),超常材料中的非线性色散效应及孤子稳定性研究,2015/01-2018/12,270 万元,结题,主持。
6)留学回国人员启动项目,20150161120013,超常材料中的非线性衍射、衍射管理和空间孤子研究,2015/01-2017/12,3 万元,结题,主持。
7)教育部博士点基金基金,20120161120013,人工电磁特异介质中非线性色散效应对时空孤子传输的影响和调控效应研究,2013/01-2015/12,4 万元,结题, 主持。
8)中国博士后科学基金面上项目,2012M511365,超常材料中光学孤子的形成和调控机理及传播特性研究,2012.06-2014.06,5 万元,已结题,主持。
9 )湖南省自然科学基金面上项目,11JJB001,基于超常材料的激光增益介质的探索研究,2010/12-2013/12,3万元,已结题,主持。
6、 近年来部分科研论文、专著、专利
1) Yunlong Liao, Chunmei Song, Yuanjiang Xiang, Xiaoyu Dai (通讯作者),Nonlinear absorption-induced transparency and extinction of boron nanosheets. Optical Materials 108, 110199 (2020). [影响因子2.779,中科院三区]
2) Yanzhao Liang, Yuanjiang Xiang, XIaoyu Dai (通讯作者),Enhancement of graphene Faraday rotation in the one-dimensional topological photonic crystals. Optics Express 28(17), 24560-24567 (2020). [影响因子3.669,中科院二区,Top期刊]
3) Shuaiwen Gan, Banxian Ruan, Yuanjiang Xiang, Xiaoyu Dai (通讯作者),Highly sensitive surface plasmon resonance sensor modified with 2D Ti2C MXene for solution detection. IEEE Sensors Journal (2020,已接收) .[影响因子3.073,中科院三区]
4) Yunlong Liao, Youxian Shan, Leiming Wu, Yuanjiang Xiang, Xiaoyu Dai (通讯作者),Liquid‐Exfoliated Few‐Layer InSe Nanosheets for Broadband Nonlinear All‐Optical Applications. Advanced Optical Materials 8(9), 1901862 (2020).
5) Chunmei Song, Yunlong Liao, Yuanjiang Xiang, Xiaoyu Dai (通讯作者),Liquid phase exfoliated boron nanosheets for all-optical modulation and logic gates. Science Bulletin, 65(12), 1030-1038 (2020). [影响因子9.511,中科院一区,Top期刊]
6) Yuting Zhao, Shuaiwen Gan, Leiming Wu, Jiaqi Zhu, Yuanjiang Xiang, Xiaoyu Dai (通讯作者),GeSe nanosheets modified surface plasmon resonance sensors for enhancing sensitivity. Nanophotonics 9(2), 327-336 (2020). [影响因子7.491,中科院一区,Top期刊]
7) Jipeng Wu, Yanzhao Liang, Jun Guo, Leyong Jiang, Xiaoyu Dai (通讯作者), Yuanjiang Xiang, Tunable and Multichannel Terahertz Perfect Absorber Due to Tamm Plasmons with Topological Insulators. Plasmonics 15(1), 83-91 (2020). [影响因子2.335,中科院三区]
8) Jiaqi Zhu, Yuxuan Ke, Jianfeng Dai, Qi You, Leiming Wu, Jianqing Li, Jun Guo, Yuanjiang Xiang, Xiaoyu Dai (通讯作者), Topological insulator overlayer to enhance the sensitivity and detection limit of surface plasmon resonance sensor. Nanophotonics 9(7), 1941-1951 (2020). [影响因子7.491,中科院一区,Top期刊]
9) Zhongfu Li, Banxian Ruan, Jiaqi Zhu, Jun Guo, Xiaoyu Dai (通讯作者), Yuanjiang Xiang, Tunable mid-infrared perfect absorber based on the critical coupling of graphene and black phosphorus nanoribbons. Results in Physics 15, 102677 (2019). [影响因子4.019,中科院三区]
10) Xiaoyu Dai, Hao Chen, Chunyan Qiu, Leiming Wu, Yuanjiang Xiang, Ultrasensitive Multiple Guided-Mode Biosensor With Few-Layer Black Phosphorus. Journal of Lightwave Technology 38(6), 1564-1571 (2019). [影响因子4.288,中科院二区]
11) Youxian Shan, Zhongfu Li, Banxian Ruan, Jiaqi Zhu, Yuanjiang Xiang, Xiaoyu Dai (通讯作者), Two-dimensional Bi2S3-based all-optical photonic devices with strong nonlinearity due to spatial self-phase modulation. Nanophotonics 8(12), 2225-2234 (2020). [影响因子7.491,中科院一区,Top期刊]
12) Qi You, Zhongfu Li, Leyong Jiang, Jun Guo, Xiaoyu Dai (通讯作者), Yuanjiang Xiang. Giant tunable Goos–Hänchen shifts based on surface plasmon resonance with Dirac semimetal films. Journal of Physics D: Applied Physics 53, 015107 (2019). [影响因子3.169,中科院三区]
13) Yuting Zhao, Shuaiwen Gan, Guanghua Zhang, Xiaoyu Dai (通讯作者), High sensitivity refractive index sensor based on surface plasmon resonance with topological insulator. Results in Physics 14, 102477 (2019). [影响因子4.019,中科院三区]
14) Xiaoyu Dai, Chunmei Song, Chunyan Qiu, Leiming Wu, Yuanjiang Xiang, Theoretical Investigation of Multilayer Ti3C2Tx MXene as the Plasmonic Material for Surface Plasmon Resonance Sensors in Near Infrared Region. IEEE Sensors Journal 19 (24), 11834-11838 (2019). [影响因子3.073,中科院三区]
15) Yuting Zhao, Leiming Wu, Shuaiwen Gan, Banxian Ruan, Jiaqi Zhu, Xiaoyu Dai (通讯作者), Yuanjiang Xiang. High Figure of Merit Lossy Mode Resonance Sensor with Graphene. Plasmonics, 14, 929-934 (2019). [影响因子2.335,中科院三区]
16) Shuaiwen Gan, Haiqi Wang, Junwu Liang, Xiaoyu Dai (通讯作者), Yuanjiang Xiang, Ultra-sensitive refractive index sensors based on Bloch surface waves with transition metal dichalcogenides. IEEE Sensors Journal, 19(19), 8675-8680 (2019). [影响因子3.073,中科院三区]
17) Leiming Wu, Jiaqi Zhu, Shuaiwen Gan, Qian Ma, Xiaoyu Dai (通讯作者), Yuanjiang Xiang. Application of Few-Layer Transition Metal Dichalcogenides to Detect the Refractive Index Variation in Lossy-Mode Resonance Sensors with High Figure of Merit. IEEE Sensors Journal, 19, 5030-5034 (2019). [影响因子3.073,中科院三区]
18) Xiaoyu Dai, Y Liang, Y Zhao, S Gan, Y Jia, Y Xiang. Sensitivity Enhancement of a Surface Plasmon Resonance with Tin Selenide (SnSe) Allotropes. Sensors 19 (1), 173 (2019). [影响因子3.275,中科院三区]
19) Banxian Ruan, Qi You, Jiaqi Zhu, Leiming Wu, Jun Guo, Xiaoyu Dai (通讯作者), and Yuanjiang Xiang. Fano resonance in double waveguides with graphene for ultrasensitive biosensor. Optics Express 26, 16884-16892 (2018). [影响因子3.669,中科院二区,Top期刊]
20) Xi Wang, Qian Ma, Leiming Wu, Jun Guo, Shunbin Lu, Xiaoyu Dai (通讯作者), and Yuanjiang Xiang, Tunable terahertz/infrared coherent perfect absorption in a monolayer black phosphorus. Optics Express 26, 5488-5496 (2018). [影响因子3.669,中科院二区,Top期刊]
21) Xing Jiang, Qingkai Wang, Jun Guo, Jin Zhang, Shuqing Chen, Xiaoyu Dai (通讯作者) and Yuanjiang Xiang. Resonant optical tunneling-induced enhancement of the photonic spin Hall effect. Journal of Physics D: Applied Physics, 51, 145104 (2018). [影响因子3.169,中科院三区]
22) Qi You, Youxian Shan, Shuaiwen Gan, Yuting Zhao, Xiaoyu Dai (通讯作者), and Yuanjiang Xiang. Giant and controllable Goos-Hänchen shifts based on surface plasmon resonance with graphene-MoS2 heterostructure. Optical Materials Express 8, 3036-3048 (2018). [影响因子3.064,中科院三区]
23) Xing Jiang, Qingkai Wang, Jun Guo, Shuqing Chen, Xiaoyu Dai (通讯作者), Yuanjiang Xiang. Enhanced Photonic Spin Hall Effect with a Bimetallic Film Surface Plasmon Resonance. Plasmonics 13, 1467-1473 (2018). [影响因子2.335,中科院三区]
24) Banxian Ruan, Qi You, Jiaqi Zhu, Leiming Wu, Jun Guo, Xiaoyu Dai (通讯作者), and Yuanjiang Xiang. Terahertz Biochemical Sensor Based on Strong Coupling Between Waveguide Mode and Surface Plasmons of Double-Layer Graphene. IEEE Sensors Journal 18, 7436 (2018). [影响因子3.073,中科院三区]
25) L Wu, Q You, Y Shan, S Gan, Y Zhao, Xiaoyu Dai (通讯作者), Y Xiang, Few-layer Ti3C2Tx MXene: a promising surface plasmon resonance biosensing material to enhance the sensitivity. Sensors and Actuators B: Chemical 277, 210-215 (2018). [影响因子7.1,中科院一区,Top期刊]
26) Y Xiang, X Jiang, Q You, J Guo, Xiaoyu Dai (通讯作者). Enhanced spin Hall effect of reflected light with guided-wave surface plasmon resonance. Photonics Research 5, 467-472 (2017). [影响因子6.099,中科院一区,Top期刊]
27) Xiaoyu Dai, Leyong Jiang, and Yuanjiang Xiang, Tunable optical bistability of dielectric/nonlinear graphene/dielectric heterostructures. Optics Express 23(5), 6497-6508 (2015). [影响因子3.669,中科院二区,Top期刊]
28) Xiaoyu Dai, Yuanjiang Xiang, and Leyong Jiang. Low threshold optical bistability at terahertz frequencies with graphene surface plasmons. Scientific Reports 5, 12271 (2015). [影响因子3.998,中科院三区]
29) Xiaoyu Dai, Leyong Jiang, Yuanjiang Xiang. Tunable THz angular/frequency filters in the modified Kretschmann–Raether configuration with the insertion of single layer graphene. IEEE Photonics Journal 7, 5500808 (2015). [影响因子2.833,中科院三区]