个人简历

教育经历
Education Background
2002.10 2007.6
布里斯托尔大学电子博士
1997.9 2002.7 大连理工大学电子学士
1994.9 1997.7 大连24中
工作经历
Work Experience

2015.12 至今 大连理工大学 教授

2007.6 2010.2 英国伦敦城市大学 博士后

2002.10 2007.6 英国布里斯托尔大学 博士
2010.2 2010.7 韩国延世大学 研究助理教授
1997.9 2002.7 大连理工大学 学生
2010.7 2015.12 大连理工大学 副教授
1994.9 1997.7 大连第24中 学生
专利
一种光子超颖表面生物传感器
一种基于多层二氧化钒的可调控三维热隐身斗篷
一种基于多层石墨烯环层的可调控三维热隐身斗篷
一种基于多层硫族化合物的可调控三维热隐身斗篷
一种基于多层石墨烯环层的可调控二维热隐身斗篷
一种基于多层纳米流体的可调控三维热隐身斗篷
科研项目

相变超材料器件, 辽宁省高等学校创新人才支持计划, 2018/02/01, 进行
光子晶体波导集成微流控芯片多通道纳米光学传感器, 辽宁省自然科学基金, 2016/07/19, 进行
可调谐非手性相变光学超材料, 辽宁省高等学校优秀人才支持计划项目, 2015/06/25-2017/12/29, 完成
基于硫族化物的快速可调谐超材料气体传感器, 科技部国合专项, 2015/04/10, 完成
基于光子晶体波导的窄带共振光谷(Mini-stopband)集成微流控生物芯片研究, 教育部留学归国人员科研启动基金项目, 2012/01/01, 进行
基于高锐度布拉格衍射谷的GaAs基线缺陷光子晶体生物传感器研究, 高等学校博士学科点专项科研基金项目, 2011/12/08-2015/05/31, 完成
线缺陷宽度渐变的光子晶体波导多通道传感器, 国家自然科学基金, 2013/09/25-2016/12/31, 完成
混沌保密光通信关键技术和微纳光子器件子系统集成芯片研究, 国家自然科学基金, 2011/09/25, 完成
太阳辐射引起的红外特征抑制试验测试效能评估, 2018/12/12-2019/02/20, 完成
有毒气体光学传感器芯片检测, 2017/06/19-2019/07/31, 进行

科研奖励
2014年教学成果二等奖

其他奖励
辽宁省百千万人才工程-千人层次 （2016年）

研究领域

超材料，光子晶体""

近期论文

[1]Hu, Hebing,Wang, Shichao,Wang, Shancheng,Liu, Guowei,Cao, Tun,Long, Yi.Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Conductive Property[J],ADVANCED FUNCTIONAL MATERIALS,2019,29(33)
[2]Cao, Tun,Fang, Linhan,Cao, Ying,Li, Nan,Fan, Zhiyou,Tao, Zhiguo.Dynamically reconfigurable topological edge state in phase change photonic crystals[J],SCIENCE BULLETIN,2019,64(12):814-822
[3]Cao, Tun,Cao, Ying,Fang, Linhan.Reconfigurable parity-time symmetry transition in phase change metamaterials[J],NANOSCALE,2019,11(34):15828-15835
[4]Cao, Tun,Mao, Libang,Qiu, Yimei,Lu, Li,Banas, Agnieszka,Banas, Krzysztof,Simpson, Robert E.,Chui, Hsiang-Chen.Fano Resonance in Asymmetric Plasmonic Nanostructure: Separation of Sub-10 nm Enantiomers[J],ADVANCED OPTICAL MATERIALS,2019,7(3)
[5]李泳江,杨雨浓,张海军,薛春东,曾德培,曹暾,覃开蓉.A microfluidic micropipette aspiration device to study single-cell mechanics inspired by the principle of Wheatstone bridge[J],Micromachines,2019,10(2)
[6]Dong, Weiling,Cao, Tun,Liu, Kuan,Simpson, Robert E..Flexible omnidirectional and polarisation-insensitive broadband plasmon-enhanced absorber[J],NANO ENERGY,2018,54:272-279
[7]Wang, Shancheng,Liu, Guowei,Hu, Peng,Zhou, Yang,Ke, Yujie,Li, Chuanchang,Chen, Jian,Cao, Tun,Long, Yi.Largely Lowered Transition Temperature of a VO2/Carbon Hybrid Phase Change Material with High Thermal Emissivity Switching Ability and Near Infrared Regulations[J],ADVANCED MATERIALS INTERFACES,2018,5(21)
[8]Cao, Tun,Wei, Chen-Wei,Cen, Meng-Jia,Guo, Bao,Kim, Yong-June,Zhang, Shuang,Qiu, Cheng-Wei.A reprogrammable multifunctional chalcogenide guided-wave lens[J],NANOSCALE,2018,10(36):17053-17059
[9]Cao, Tun,Simpson, Robert E.,Zhang, Xinyu,Dong, Weiling,Lu, Li,Zhou, Xilin,Zhuang, Xin,Deng, Junhong,Cheng, Xing,Li, Guixin.Tuneable Thermal Emission Using Chalcogenide Metasurface[J],ADVANCED OPTICAL MATERIALS,2018,6(16)
[10]Li, Yong-Jiang,Cao, Tun,Qin, Kai-Rong.Transmission of dynamic biochemical signals in the shallow microfluidic channel: nonlinear modulation of the pulsatile flow[J],MICROFLUIDICS AND NANOFLUIDICS,2018,22(8)
[11]Dong, Weiling,Qiu, Yimei,Zhou, Xilin,Banas, Agnieszka,Banas, Krzysztof,Breese, Mark B. H.,Cao, Tun,Simpson, Robert E..Tunable Mid-Infrared Phase-Change Metasurface[J],ADVANCED OPTICAL MATERIALS,2018,6(14)
[12]李泳江,陈宗正,袁闱墨,曹暾,覃开蓉.Transmission of Dynamic Biochemical Signals in a Variable Cross-section Micro\u0003uidic Channel[A],2018 IEEE 14th International Conference on Control and Automation,2018,48-51
[13]于洪建,薛春东,曹暾,覃开蓉.A Microfluidic Chip for Rapidly Controlling Dynamic Biomedical Signals[A],IEEE 14th International Conference on Control and Automation (ICCA),2018,2018-June:1137-1141
[14]曹暾,李阳,田龙,梁华为,覃开蓉.Fast Switching “On/Off” Chiral Surface Plasmon Polaritons in Graphene-Coated Ge2Sb2Te5 Nanowire[J],ACS Applied Nano Materials,2018,1(2):759-767
[15]Cao, Tun,Li, Yang,Zhang, Xinyu,Zou, Yang.Theoretical study of tunable chirality from graphene integrated achiral metasurfaces[J],PHOTONICS RESEARCH,2017,5(5):441-449
[16]Cao, Tun,Li, Yang,Wei, Chen-Wei,Qiu, Yi-Mei.Numerical study of tunable enhanced chirality in multilayer stack achiral phase-change metamaterials[J],OPTICS EXPRESS,2017,25(9):9911-9925
[17]Liang, Huawei,Zhang, Lei,Zhang, Shuang,Cao, Tun,Alu, Andrea,Ruan, Shuangchen,Qiu, Cheng-Wei.Gate-Programmable Electro-Optical Addressing Array of Graphene-Coated Nanowires with Sub-10 nm Resolution[J],ACS PHOTONICS,2016,3(10):1847-1853
[18]Cao, Tun,Bao, Jiaxin,Mao, Libang,Zhang, Tianhang,Novitsky, Andrey,Nieto-Vesperinas, Manuel,Qiu, Cheng-Wei.Controlling Lateral Fano Interference Optical Force with Au-Ge2Sb2Te5 Hybrid Nanostructure[J],ACS PHOTONICS,2016,3(10):1934-1942
[19]Dong, Welling,Qiu, Yimei,Yang, Joel,Simpson, Robert E.,Cao, Tun.Wideband Absorbers in the Visible with Ultrathin Plasmonic-Phase Change Material Nanogratings[J],JOURNAL OF PHYSICAL CHEMISTRY C,2016,120(23):12713-12722
[20]Cao, Tun,Mao, Libang,Gao, Dongliang,Ding, Weiqiang,Qiu, Cheng-Wei.Fano resonant Ge2Sb2Te5 nanoparticles realize switchable lateral optical force[J],NANOSCALE,2016,8(10):5657-5666
[21]Cao, Tun,Wei, Chen-wei,Li, Yang.Dual-band strong extrinsic 2D chirality in a highly symmetric metal-dielectric-metal achiral metasurface[J],OPTICAL MATERIALS EXPRESS,2016,6(2):303-311
[22]Cao, Tun,Wang, Shuai,Wei, Chen Wei.Simulation of tunable metamaterial perfect absorber by modulating Bi2Se3 dielectric function[J],MATERIALS EXPRESS,2016,6(1):45-52
[23]曹暾.A tunable multiband chirped metasurface[J],Journal of Science: Advanced Materials and Devices,2016,3:393-399
[24]曹暾,裘一妹.Wideband Absorbers in the Visible with Ultrathin Plasmonic-Phase Change[J],Journal of Physical Chemistry C,2016,23:12713-12722
[25]Mao, Libang,Cao, Tun.Enhancement of Fano resonance using modified trilayer fishnet metamaterials[A],IEEE MTT-S International Microwave Workshop Series on Advanced Materialsand Processes for RF and THz Applications (IMWS-AMP),2016
[26]Cao, Tun,Wei, Chenwei,Mao, Libang.Numerical study of achiral phase-change metamaterials for ultrafast tuning of giant circular conversion dichroism[J],SCIENTIFIC REPORTS,2015,5:14666
[27]Cao, Tun,Zheng, Guangzhao,Wang, Shuai.Chemical control of continuous light-steering using an array of gradient Au/Bi2Se3/Au strips[J],RSC ADVANCES,2015,5(85):69319-69324
[28]Cao, Tun,Wei, Chen-Wei,Mao, Li-Bang,Wang, Shuai.Tuning of giant 2D-chiroptical response using achiral metasurface integrated with graphene[J],OPTICS EXPRESS,2015,23(14):18620-18629
[29]Cao, Tun,Zheng, Guangzhao,Wang, Shuai,Wei, Chenwei.Ultrafast beam steering using gradient Au- Ge2Sb2Te5 -Au plasmonic resonators[J],OPTICS EXPRESS,2015,23(14):18029-18039
[30]Mao, Libang,Cao, Tun.Circular dichroism in planar achiral metamaterial[A],IEEE MTT-S International Microwave Workshop Series on Advanced Materialsand Processes for RF and THz Applications (IEEE MTT-S IMWS-AMP 2015),2015,107-109
[31]Cao, Tun,Wei, Chenwei,Mao, Libang.Ultrafast tunable chirped phase-change metamaterial with a low power[J],OPTICS EXPRESS,2015,23(4):4092-4105
[32]Cao, Tun,Wei, Chenwei,Cryan, Martin J..Low-loss dual-band double-negative chirped metamaterial[J],JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS,2015,32(1):108-113
[33]Wu, Haibo,Huang, Hui,Bai, Min,Liu, Pengbo,Chao, Ming,Hu, Jie,Hao, Jian,Cao, Tun.An ultra-low detection-limit optofluidic biosensor based on all glass Fabry-Perot cavity[J],OPTICS EXPRESS,2014,22(26):31977-31983
[34]Cao, Tun,Wei, Chenwei,Mao, Libang,Li, Yang.Extrinsic 2D chirality: giant circular conversion dichroism from a metal-dielectric-metal square array[J],SCIENTIFIC REPORTS,2014,4:7442
[35]Cao, Tun,Zou, Yang,Adawi, Ali M.,Cryan, Martin J..Directive emission of red conjugated polymer embedded within zero index metamaterials[J],OPTICS EXPRESS,2014,22(19):22699-22706
[36]Cao, Tun,Wei, Chenwei,Simpson, Robert E.,Zhang, Lei,Cryan, Martin J..Fast tuning of Fano resonance in metal/phase-change materials/metal metamaterials[J],OPTICAL MATERIALS EXPRESS,2014,4(9):1775-1786
[37]Cao, Tun,Wei, Chenwei,Zhang, Lei.Modeling of multi-band circular dichroism using metal/dielectric/metal achiral metamaterials[J],OPTICAL MATERIALS EXPRESS,2014,4(8):1526-1534
[38]Wang, Shuai,Cao, Tun.Topological insulator metamaterials with tunable negative refractive index in the optical region[A],11th IEEE International Conference on Control and Automation (ICCA),2014,1255-1258
[39]Wei, Chenwei,Zhang, Lei,Cao, Tun.Enhancement of Fano resonance in metal/dielectric/metal metamaterials at optical regime[A],11th IEEE International Conference on Control and Automation (ICCA),2014,1259-1263
[40]Cao, Tun,Wang, Shuai.Blue shift tunable negative index metamaterials based on topological insulator for near-infrared spectrum[J],MATERIALS EXPRESS,2014,4(3):196-204
[41]Cao, Tun,Wei, Chenwei,Simpson, Robert E.,Zhang, Lei,Cryan, Martin J..Fast Tuning of Double Fano Resonance Using A Phase-Change Metamaterial Under Low Power Intensity[J],SCIENTIFIC REPORTS,2014,4:4463
[42]Cao, Tun,Wei, Chen-wei,Simpson, Robert E.,Zhang, Lei,Cryan, Martin J..Broadband Polarization-Independent Perfect Absorber Using a Phase-Change Metamaterial at Visible Frequencies[J],SCIENTIFIC REPORTS,2014,4:3955
[43]曹暾.Continuously tunable metamaterial perfect absorber using topological insulator[A],International Conference on Small Science,2014
[44]曹暾.Fano resonance in metal/dielectric/metal fishnet metamaterials with a broken symmetry[A],International Nanophotonics and Nanoenergy Conference,2014
[45]曹暾.Study of tunable negative index metamaterials based on phase-change materials[A],3rd Annual World Congress of Advanced Materials-2014 (WCAM-2014),2014
[46]Cao, Tun,Wang, Shuai.Topological insulator metamaterials with tunable negative refractive index in the optical region[J],NANOSCALE RESEARCH LETTERS,2013,8(1):526
[47]Li, Yong-Jiang,Li, Yizeng,Cao, Tun,Qin, Kai-Rong.Transport of Dynamic Biochemical Signals in Steady Flow in a Shallow Y-Shaped Microfluidic Channel: Effect of Transverse Diffusion and Longitudinal Dispersion[J],JOURNAL OF BIOMECHANICAL ENGINEERING-TRANSACTIONS OF THE ASME,2013,135(12)
[48]Cao, Tun,Zhang, Lei,Simpson, Robert E.,Wei, Chenwei,Cryan, Martin J..Strongly tunable circular dichroism in gammadion chiral phase-change metamaterials[J],OPTICS EXPRESS,2013,21(23):27841-27851
[49]Cao, Tun,Wang, Shuai,Jiang, WeiXiang.Tunable metamaterials using a topological insulator at near-infrared regime[J],RSC ADVANCES,2013,3(42):19474-19480
[50]Cao, Tun,Zhang, Lei,Xiao, Zai-peng,Huang, Hui.Enhancement and tunability of Fano resonance in symmetric multilayer metamaterials at optical regime[J],JOURNAL OF PHYSICS D-APPLIED PHYSICS,2013,46(39)
[51]Cao, Tun,Zhang, Lei.Enhancement of Fano resonance in metal/dielectric/metal metamaterials at optical regime[J],OPTICS EXPRESS,2013,21(16):19228-19239
[52]Cao, Tun,Wei, Chenwei,Simpson, Robert E.,Zhang, Lei,Cryan, Martin J..Rapid phase transition of a phase-change metamaterial perfect absorber[J],OPTICAL MATERIALS EXPRESS,2013,3(8):1101-1110
[53]Qi, Zhenbin,Huang, Hui,Cao, Tun,Liu, Pengbo,Tang, Zhenan,Qu, Bo.Highly sensitive fiber pressure sensor based on off-center diaphragm reflection[J],APPLIED OPTICS,2013,52(18):4223-4227
[54]Cao, Tun,Zhang, Lei,Simpson, Robert E.,Cryan, Martin J..Mid-infrared tunable polarization-independent perfect absorber using a phase-change metamaterial[J],JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS,2013,30(6):1580-1585
[55]Liu, Pengbo,Huang, Hui,Cao, Tun,Liu, Xueyu,Qi, Zhenbin,Tang, Zhenan,Zhang, Jinnan.An ultra-low detection-limit optofluidic biosensor with integrated dual-channel Fabry-Perot cavity[J],APPLIED PHYSICS LETTERS,2013,102(16)
[56]曹暾,覃开蓉,闫卫平.基于可见光波段的L3光子晶体谐振腔集成微流槽折射率生物传感器[J],生物医学工程学进展,2013,34(1):6-9
[57]Cao, Tun,Simpson, Robert E.,Cryan, Martin J..Study of tunable negative index metamaterials based on phase-change materials[J],JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS,2013,30(2):439-444
[58]Zhang, Lei,Cao, Tun,Lia, Zhi Gang,Qin, Kai Rong,Yan, Wei Ping.Study of Photonic Crystal Cavity Sensor integrated with microfluidic channel in the visible region[A],Conference on Advanced Sensor Systems and Applications V,2012,8561
[59]Cao, T.,Cryan, M. J..Optical trapping using double negative index fishnet metamaterial[A],International Workshop on Metamaterials (Meta),2012
[60]Cao, Tun,Zhang, Lei,Cryan, Martin J..Optical Forces in Metal/Dielectric/Metal Fishnet Metamaterials in the Visible Wavelength Regime[J],IEEE PHOTONICS JOURNAL,2012,4(5):1861-1869