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[1]Xue, Chun-Dong,Li, Yong-Jiang,Na, Jing-Tong,Wang, Yan-Xia,Yu, Hong-Jian,Liu, Bo,Cao, Tun,Qin, Kai-Rong.A microfluidic platform enabling real-time control of dynamic biochemical stimuli to biological...[J],JOURNAL OF MICROMECHANICS AND MICROENGINEERING,2020,30(9)
[2]Liu, Kuan,Li, Yang,Qin, Kairong,Cao, Tun.Tuning of Classical Electromagnetically Induced Reflectance in Babinet Chalcogenide Metamateria...[J],ISCIENCE,2020,23(8)
[3]Zhu, Tongtong,Qiu, Cheng-Wei,Shi, Yuzhi,Ding, Weiqiang,Tsai, Din Ping,Cao, Tun,Liu, Ai Qun,Nieto-Vesperinas, Manuel,Saenz, Juan Jose,Wu, Pin Chieh.Extraordinary Multipole Modes and Ultra-Enhanced Optical Lateral Force by Chirality[J],PHYSICAL REVIEW LETTERS,2020,125(4)
[4]Xue, Chun-Dong,Chen, Xiao-Dong,Li, Yong-Jiang,Hu, Guo-Qing,Cao, Tun,Qin, Kai-Rong.Breakup Dynamics of Semi-dilute Polymer Solutions in a Microfluidic Flow-focusing Device[J],MICROMACHINES,2020,11(4)
[5]Cao, Tun,Liu, Kuan,Lu, Li,Liu, Jianxun,Liu, Yan Jun,Qin, Kai Rong,Chui, Hsiang Chen,Simpson, Robert E..Low-Power Phase Transition of Chalcogenide Glass Using Au Nanoparticle Plasmon Resonance[J],ADVANCED OPTICAL MATERIALS,2020,8(6)
[6]曹暾,崔祥辰,Robert E. Simpson,Kuan Liu,Li Lu,Jianxun Liu,Yan Jun Liu,覃开蓉.Low-Power Phase Transition of Chalcogenide Glass Using Au Nanoparticle Plasmon Resonance[J],Advanced Optical Materials,2020,8:1901570-
[7]Cao, Tun,Liu, Kuan,Lu, Li,Chui, Hsiang-Chen,Simpson, Robert E..Chalcogenide-gold dual-layers coupled to gold nanoparticles for reconfigurable perfect absorpti...[J],NANOSCALE,2019,11(43):20546-20553
[8]Cao, Tun,Cao, Ying,Fang, Linhan.Reconfigurable parity-time symmetry transition in phase change metamaterials[J],NANOSCALE,2019,11(34):15828-15835
[9]Cao, Tun,Cen, Mengjia.Fundamentals and Applications of Chalcogenide Phase-Change Material Photonics[J],ADVANCED THEORY AND SIMULATIONS,2019,2(8)
[10]Hu, Hebing,Wang, Shichao,Wang, Shancheng,Liu, Guowei,Cao, Tun,Long, Yi.Aligned Silver Nanowires Enabled Highly Stretchable and Transparent Electrodes with Unusual Con...[J],ADVANCED FUNCTIONAL MATERIALS,2019,29(33)
[11]Cao, Tun,Liu, Kuan,Tang, Yutao,Deng, Junhong,Li, Kingfai,Li, Guixin.A High-Index Ge2Sb2Te5-Based Fabry-Perot Cavity and Its Application for Third-Harmonic Generati...[J],LASER & PHOTONICS REVIEWS,2019,13(7)
[12]Chen, Xiao-Ming,Li, Yong-Jiang,Han, Dan,Zhu, Hui-Chao,Xue, Chun-Dong,Chui, Hsiang-Chen,Cao, Tun,Qin, Kai-Rong.A Capillary-Evaporation Micropump for Real-Time Sweat Rate Monitoring with an Electrochemical S...[J],MICROMACHINES,2019,10(7)
[13]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
[14]Xu, Ying-hua,Qin, Kai-rong,Cao, Tun,Yan, Wei-ping.Three-dimensional flow field simulation of steady flow in the serrated diffusers and nozzles of...[J],JOURNAL OF HYDRODYNAMICS,2019,31(2):413-420
[15]Cao, Tun,Liu, Kuan,Lu, Li,Chui, Hsiang-Chen,Simpson, Robert E..Large-Area Broadband Near-Perfect Absorption from a Thin Chalcogenide Film Coupled to Gold Nano...[J],ACS APPLIED MATERIALS & INTERFACES,2019,11(5):5176-5182
[16]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)
[17]Li, Yong-Jiang,Xue, Chun-Dong,Zeng, De-Pei,Cao, Tun,Qin, Kai-Rong,Yang, Yu-Nong,Zhang, Hai-Jun.A Microfluidic Micropipette Aspiration Device to Study Single-Cell Mechanics Inspired by the Pr...[J],MICROMACHINES,2019,10(2)
[18]曹暾.A High‐Index Ge2Sb2Te5‐Based Fabry–Perot Cavity and Its Application for Third‐Harmonic Genera...[J],Laser & Photonics Reviews,2019,13:1900063-
[19]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 prin...[J],Micro-machines,2019,10(10):131-
[20]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
[21]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 T...[J],ADVANCED MATERIALS INTERFACES,2018,5(21)
[22]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
[23]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)
[24]Li, Yong-Jiang,Cao, Tun,Qin, Kai-Rong.Transmission of dynamic biochemical signals in the shallow microfluidic channel: nonlinear modu...[J],MICROFLUIDICS AND NANOFLUIDICS,2018,22(8)
[25]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)
[26]Cao, Tun,Li, Yang,Tian, Long,Liang, Huawei,Qin, Kairong.Fast Switching "On/Off" Chiral Surface Plasmon Polaritons in Graphene-Coated Ge2Sb2Te5 Nanowire[J],ACS APPLIED NANO MATERIALS,2018,1(2):759-+
[27]Cao, Tun,Bao, Jiaxin,Mao, Libang.Switching of Giant Lateral Force on Sub-10 nm Particle Using Phase-Change Nanoantenna[J],ADVANCED THEORY AND SIMULATIONS,2018,1(2)
[28]于洪建,薛春东,曹暾,覃开蓉.A Microfluidic Chip for Rapidly Controlling Dynamic Biomedical Signals[A],2018,2018-June:1137-1141
[29]李泳江,陈宗正,袁闱墨,曹暾,覃开蓉.Transmission of Dynamic Biochemical Signals in a Variable Cross-section Microuidic Channel[A],2018,48-51
[30]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
[31]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
[32]Cao, Tun,Li, Yang,Wei, Chen-Wei,Qiu, Yi-Mei.Numerical study of tunable enhanced chirality in multilayer stack achiral phase-change metamate...[J],OPTICS EXPRESS,2017,25(9):9911-9925
[33]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
[34]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 ...[J],ACS PHOTONICS,2016,3(10):1847-1853
[35]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
[36]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
[37]Cao, Tun,Wei, Chen-wei,Li, Yang.Dual-band strong extrinsic 2D chirality in a highly symmetric metal-dielectric-metal achiral me...[J],OPTICAL MATERIALS EXPRESS,2016,6(2):303-311
[38]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
[39]Mao, Libang,Cao, Tun.Enhancement of Fano resonance using modified trilayer fishnet metamaterials[A],2016
[40]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