张中月教授研究组
购物车
科研论文

2018年


(94) Tunable asymmetric transmission through tilted rectangular nanohole arrays in a square lattice


     Tudahong Aba, Yu Qu, Tiankun Wang, Yuyan Chen, Hui Li, Yongkai Wang, Yu Bai, and Zhongyue Zhang*


    Optics Express 26, 1199-1205(2018)

(93)  Asymmetric transmission of a planar metamaterial induced by symmetry breaking

     Yu Bai, Yuyan Chen, Yongyuan Zhang, Yongkai Wang, Tudahong Aba, Hui Li, Li Wang, and Zhongyue Zhang*

      Journal of physics: condensed matter,accepted

2017年

(92) Induced chirality in micron wave through electromagnetic coupling between chiral molecules and graphene nanostructures

     Yongkai Wang, Tong Fu, Tiankun Wang, Yongfang Li, Zhongyue Zhang*

     Carbon 120, 203-208(2017)

(91)  Circular dichroism of a tilted U-shaped nanostructure

    Tiankun Wang, Tong Fu, Yuyan Chen, and Zhongyue Zhang*

    Optics Letters 42, 2842-2845(2017)

(90) Tunable Chiroptical Response of Chiral Plasmonic Nanostructures Fabricated with Chiral Templates through Oblique Angle Deposition

    Tong Fu, Yu Qu, Tiankun Wang, Gang Wang, Yongkai Wang, Hui Li, Juan Li, Li Wang, and Zhongyue Zhang*

     The Journal of Physical Chemistry C 121, 1299-1304(2017)

(89)  Giant circular dichroism induced by tunable resonance in twisted Z-shaped nanostructure

      Yu Qu, Lishun Huang, Li Wang and Zhongyue Zhang*

      Optics Express 25, 5480-5487(2017)

(88)  Controllable multiple plasmonic bending beams via polarization of incident waves

       Hui Li, Yu Qu, Hamad Ullah, Bin Zhang, and Zhongyue Zhang*

      Optics Express 25, 29659-29666(2017)

(87)  Chiral near-fields around chiral dolmen nanostructure

       Tong Fu, Tiankun Wang, Yuyan Chen, Yongkai Wang, Yu Qu, and Zhongyue Zhang*

       JPAP 50, 474004(2017)

(86)  Dielectric tuned circular dichroism of L-shaped plasmonic metasurface  

      Yu Qu, Zhidong Zhang, Tong Fu, Gang Wang, Tiankun Wang, Mingyan Wang, Yu Bai and Zhongyue Zhang*

      JPAP 50, 504001(2017)

(85)  Circular Dichroism in Planar Achiral Plasmonic L-Shaped Nanostructure Arrays

       Yongyuan Zhang, Li Wang and Zhongyue Zhang*

      IEEE Photonics J.10,2670783(2017)

(84)  Tunable Circular Dichroism of Achiral Graphene Plasmonic Structures

       Tiankun Wang, Yongkai Wang, Lina Luo, Li Wang and Zhongyue Zhang*

      Plasmonics 12, 829–833(2017)

(83)  Ultra-subwavelength and low loss in V-shaped hybrid plasmonic waveguide

Yongyuan Zhang and Zhongyue Zhang*

Plasmonics 12, 59-63(2017)

(82)  Asymmetric transmission of obliquely intersectingnanoslit arrays in a gold film

       Yuyan Chen, Yongkai Wang, Tiankun Wang, Yongyuan Zhang, Li Wang, and Zhongyue Zhang*

      Applied optics 56, 5781-5785(2017)

(81)  Converting surface plasmon polaritons into spatial bending beams through gradeddielectric rectangles over metal film

Hui Li, Yongzheng Xu, GangWang, Tong Fu, Li Wang*, and Zhongyue Zhang*

Optics Communications 383, 423–429(2017)

(80)  Enhanced circular dichroism of gold bilayered slit arrays embedded with rectangular holes

Hao Zhang, Yongkai Wang, Lina Luo, Haiqing Wang, and Zhongyue Zhang*

Journal of Nanoscience and Nanotechnology 17, 377-381(2017)

(79)   Active control of optical chirality with graphene-based achiral nanorings

      Tong Fu, Yuyan Chen, Tiankun Wang, Hui Li, Zhongyue Zhang, and Li Wang*

       Optics Express 25, 24623-24629(2017)

(78) Accurate regulation of circular dichroism signal in double-layer nanostructure

     Yu Bai, Yongkai Wang, Yuyan Chen, Yongyuan Zhang, Tong Fu,Zhongyue Zhang, Li Wang*

      Optik 154,165–170(2018)

(77)  Plasmonic circular dichroism of tailed spatial cross-shaped nanostructure

    Fei Wang, Tong Fu, Yongkai Wang, Yu Zhang, Zhongyue Zhang, Li Wang*

Journal of Optical Technology,accepted

(76) Synthesis of Large-Size 1T′ ReS2xSe2(1−x) Alloy Monolayer with Tunable Bandgap and Carrier Type

   Fangfang Cui, Qingliang Feng, Jinhua Hong, Renyan Wang, Yu Bai, Xiaobo Li,Dongyan Liu, Yu Zhou, Xing Liang,

Xuexia He, Zhongyue Zhang, Shengzhong Liu,Zhibin Lei, Zonghuai Liu, Tianyou Zhai,* and Hua Xu*

  Advanced Materials(29), 1705015(2017)

(75)  倾斜L形手性结构的制备以及圆二色性

  王刚,张中月王莉*

       光子学报 10, 3788(2017)

(74)  空间弯曲元束的折射特性

  徐永征,李辉,王莉,张中月*

    光学学报 37, 0626004(2017)

(73)  TRIZ遇上纳米光子科学—以超系统进化趋势为例

  王勇凯,张宛,曹兆霞,张中月*

  科技导报35,15(2017)

  2016年

(72)  Plasmonic chirality of L-shaped nanostructure composed of two slices with different thickness

Yongkai Wang, Junchen Deng, Gang Wang, Tong Fu, Yu Qu, and Zhongyue Zhang*

Optics Express 24, 2307-2317(2016)

(71)  Co-occurence of circular dichroism and asymmetric transmission in twist nanoslit-nanorod arrays

Yongkai Wang, Xiaojing Wen, Yu Qu, Li Wang, Rengang Wan, and Zhongyue Zhang*

Optics Express 24, 16425-16433(2016)

(70)  Broad band-pass and band-stop transmissions through the hybrid gratings of rectangle and triangle of rectangle and triangle

Xiaojun Tian, Yongkai Wang, Liang Cao and Zhongyue Zhang*

Journal of Lightwave Technology 34, 1350-1353(2016)

(69)Direct and indirect coupling mechanisms in a chiral plasmonic system

Yongkai Wang, Xiaojing Wen, Yu Qu, Tong Fu, and Zhongyue Zhang*

Journal of Physics D: Applied Physics 49, 405104(2016)

(68)  Electromagnetically Induced Transparency and Refractive Index Sensing for a Plasmonic Waveguide with a stub Coupled Ring Resonator

      Z.D. Zhang*,R. B.Wang, Z.Y Zhang, J. Tang,&W. D. Zhang, C. Y. Xue and S. B. Yan*

Plasmonics 12, 1007-1013(2016)

(67)  Transmission characteristics of surface plasmon polaritons through a metallic rectangle above a metallic film

Haiqing Wang, Yongkai Wang, Guian Li, and Zhongyue Zhang*

Journal of Modern Optics 63, 411-416(2016)

(66)  Enhancement of focusing properties by interfering spatial bending beams

     Hui Li, Yongzheng Xu, Yu Qu, Bin Zhang, Li Wang and Zhongyue Zhang*

    Europhysics Letters 116, 55002(2016)

(65)  应用分级凹槽阵列转换表面等离极化激元为空间任意弯曲光束

李辉、聂俊英、徐永征、王刚、付统、王莉、张中月*

光学学报 36(10), 1026023(2016)

(64) Self-organization process of Aluminum oxide during hard anodization

Juan Li*, Zhiying Zhang, Yuxin Li, Yingjun Ma, Lin Chen,Zhongyue Zhang,Runguang Sun*

Electrochimica Acta213, 14-20(2016)

(63)  Tellurium-assisted epitaxial growth of large-area, highly crystalline ReS2 atomic layers on mica substrate

Cong Wang, Fangfang Cui, Xiaobo lI, Gang Wang, Kaiqiang Liu, Zhou Yang, Jing Li, Shuchen Zhang, Qingliang Feng, Nannan Mao, Juanxia Wu, Zhongyue Zhang, Shengzhong Liu, Xuexia He, Zhibin Lei, Zonghuai Liu, Jin Zhang*, Hua Xu*

Advanced Materials28, 5019-5024(2016)

(62)  Controlled growth of large-area anisotropic ReS2 atomic layer and its photodetector application

     Xiaobo Li, Fangfang Cui,Qingliang Feng,Gang Wang,Xiaosa Xu,Juanxia Wu,Nannan Mao,Xing Liang,

Zhongyue Zhang,Jin Zhang,Hua Xu*

Nanoscale 18956–18962(2016)

(61) Generation and Manipulation of Multiple Magnetic Fano Resonances in Split Ring-Perfect Ring Nanostructure

       Yuan Li 1 , Yiping Huo*, Ying Zhang, Zhongyue Zhang

       Plasmonics 10,1007(2016)

2015年

(60)  Broadband extraordinary optical transmission through a multilayer structure with a periodic nanoslit array

Yu Qu, Xiaojun Tian, Tong Fu, Gang Wang, Guian Li, and Zhongyue Zhang*

IEEE Photonics J.10, 2427736(2015)

(59)  Extraordinary optical transmission of broadband through tapered multilayer slits

Wan Zhang, Yongkai Wang, Lina Luo, Guian Li,and Zhongyue Zhang*

Plasmonics10, 547-551(2015)

(58)  Giant circular dichroism induced by silver nanocuboid heterdimers

Wan Zhang, Yongkai Wang, Xiaojing Wen,and Zhongyue Zhang*

Applied Optics54, 9359-9363(2015)

(57)  Double Fano resonances in a planar pseudo-dolmen structure

Na Li, Xiaojun Tian, Wan Zhang, Lina Luo, and Zhongyue Zhang*

Sensors and Actuators A: Physical234, 346-350(2015)

(56)  MnO2/Au hybrid nanowall film for high-performance surface-enhanced Raman scattering substrate

Minghui Zhou, Xiaoli Liu, Baozhi Yu, Jing Cai, Chunyan Liao, Zhenhua, Ni, Zhongyue Zhang, Zhaoyu Ren, Jintao Bai, Haiming Fan*

Appl. Surf. Sci.333, 78-85(2015)

(55)  十字结构银纳米线的表面等离极化激元分束特性

张永元、罗李娜、张中月*

物理学报64, 097303(2015)

(54)  多层膜金属狭缝阵列的光学异常透射特性

聂俊英、张宛、罗李娜、张中月*

中国科学 物理学 力学 天文学45, 024202 (2015)

(53)  金属半圆环/长板阵列的法诺共振特性

罗李娜、王勇凯、聂俊英、尹宝银、张中月*

中国光学8, 360(2015)


2014年

(52)  Broadband extraordinary optical transmission through gold diamond-shaped nanohole arrays

Yongkai Wang, Yan Qin, and Zhongyue Zhang*

IEEE Photonics J.6, 4801508(2014)

(51)  Manipulating surface plasmon polaritons using F-shaped nanoslits array

Liang Cao, Wenting Li, Yongkai Wang, Xiaojun Tian, Guian Li, Hairong Zheng, andZhongyue Zhang*

IEEE Photonics Tech L26, 1247 (2014)

(50)  Extraordinary optical transmission property of X-shaped plasmonic nanohole arrays

Yongkai Wang, Yan Qin, and Zhongyue Zhang*

Plasmonics9, 203-207 (2014)

(49)  Transmission properties of periodically patterned triangular prisms

Xiaojun Tian, Yongkai Wang, Liang Cao, and Zhongyue Zhang*

Photonics Nanostruct.12, 5 (2014)

(48)  Numerical investigation of the enhanced unidirectional SPPs generator

Zhidong Zhang, Hongyan Wang*, Zhongyue Zhang, and Hui Wang

Chin. Phys. B23, 017801(2014)

(47)  金属圆孔阵列的非共振增强透射

庞绍芳、张中月、屈世显*

中国科学:物理学 力学 天文学44, 142 (2014)

(46)  Fano resonance in a circular nanocavity embedded with an Ag nanocube of the metal-insulator-metalwaveguide

Wei Cao, Yan Qin, Yongkai Wang, Baoyin Yin, and Zhongyue Zhang*

光散射学报26, 398 (2014)


2013年

(45)  Fano resonance in a gear-shaped nanocavity of the metal-insulator-metal waveguide

Z.-D. Zhang, H.-Y. Wang, and Zhongyue Zhang*

Plasmonics 8, 797 (2013)

(44) Surface plasmon polariton coupling between a metal nanowire and a metal helix

 Yan Qin, Wei Cao, and Zhongyue Zhang*

Optik 124, 5363 (2013)

(43) The optical properties of windmill-shaped nanostructures

Z.-D. Zhang and Z.-Y. Zhang*

Optik 124, 1792 (2013)

(42)  Transmission properties of the one-end-sealed metal-insulator-metal waveguide

Z.-D. Zhang, H.-Y. Wang, Y.-N. Zhao, D. Lu, and Z.-Y. Zhang*

Optik 124, 177(2013)

(41)  The effect of the metal cylinder in the slot on the transmission properties of the metal-insulator-metal waveguide

 Zhidong Zhang, Zhongyue Zhang, and Hongyan Wang*

Optik 124, 6351(2013)

(40)  内嵌十字形金属结构圆形谐振腔的滤波特性

庞绍芳张中月、屈世显*

光学学报 (2013) 第十一期,242-246

(39) 内嵌矩形腔楔形金属狭缝的增强透射

秦艳、曹威、张中月*

物理学报 62, 127302 (2013)

(38)  内嵌银纳米棒圆形银缝隙结构中的法诺共振现象

罗松、付统、张中月*

物理学报 62, 147303 (2013)

(37)  UV light-induced self-assembly of gold nanocrystals into chains and networks in a solution of silver nitrate

Shujun Zhen, Zhongyue Zhang, Na Li, Zhidong Zhang, Jian Wang, Chunmei Li, Lei Zhan, Honglin Zhuang, and  Chengzhi Huang*

Nanotechnology 24, 055601(2013)

2012年

(36)  Enhancing the electric fields around the nanorods by using metal grooves

Yanan Zhao, Yan Qin, Wei Cao, and Zhongyue Zhang*

Sci. China: Phys. Mech. Astron. 55, 1763 (2012)

(35)  基于圆弧谐振腔的金属-介质-金属波导滤波器的数值研究

  张志东、赵亚男、卢东、熊祖洪、张中月*

物理学报 61, 187301 (2012)

(34)  应用梯形纳米结构增强纳米棒表面电场

李山、钟明亮、熊祖洪、张中月*

中国科学:物理学 力学 天文学 42, 224 (2012)

(33)  十字形银纳米结构的表面等离子体光子学性质

钟明亮、李山、熊祖洪、张中月*

物理学报 61, 027803 (2012)

(32)  金纳米环双体尺寸和耦合效应对表面等离子体共振特性的影响

孙中华、王红艳*、王辉、张志东、张中月

物理学报 61, 125202 (2012)


2011年

(31)  The Visible Extinction Peaks of Ag Nanohelixes: A Periodic Effective Dipole Model

Z.-Y. Zhang* and Y.-P. Zhao

Appl. Phys. Lett. 98, 083102 (2011)

(30) Electric Field Enhancements around the Nanorod on the Base Layer

Z.-Y. Zhang*, Z.-D. Zhang, L.-J. Zhang, C.-Z. Huang, and Z.-H. Xiong

Opt. Express 19, 7274 (2011)

(29)  Numerical investigation of a branch-shaped filter based on metal-insulator-metal waveguide

Zhongyue Zhang*, Jiandong Wang, Yanan Zhao, Dong Lu, and Zuhong Xiong

Plasmonics 6, 773 (2011)

(28)  Cascade Electric Field Enhancement in the Orthogonal-Nanorod Structures

Z.-Y. Zhang*, S.-Y. Zhang, Y.-J. Liu, and Z.-H. Xiong

Plasmonics 6, 177 (2011)

(27)  Superfocusing Effect in the Chain of Silver Nanorods

Zhidong Zhang, Zhongyue Zhang, and Hongyan Wang

Appl. Opt. 50, 3513 (2011)

(26)  Enhancement of the Surface Plasmon Polariton along the Nanorod: the Electric Field Coupling Effect at the Excitation End

Zhongyue Zhang*, Zhidong Zhang, Zuhong Xiong, and Hongyan Wang

Proceedings of 2011 4th IEEE International Conference on Computer Science and Information Technology (ICCSIT2011) 10, 567 (2011)

(25)  应用平行隔板增强纳米球表面电场

李雪莲、张志东、王红艳、熊祖洪、张中月*

物理学报 60, 047807 (2011)

(24)  偏振方向及结构间耦合作用对空心方形银纳米结构表面等离激元的影响

李山、钟明亮、张礼杰、熊祖洪、张中月*

物理学报 60, 087806 (2011)

(23)   金纳米环结构的光学性质研究

孙中华、王红艳、张志东、张中月*

物理学报60, 047808 (2011)

2010年

(22)  Optical Properties of Silver Hollow Triangular Nanoprisms

Z.-Y. Zhang*, S.-Y. Zhang, and Z.-H. Xiong

Plasmonics5, 411 (2010)

(21)  Cascade Electric Field Enhancements around Small Nanorods of the Brush-Shaped Nanostructures

Z.-Y. Zhang*, Z.-D. Zhang, H.-Y. Wang, and Z.-H. Xiong

J. Phys. D: Appl. Phys. 43, 505403 (2010)

(20)  金纳米管结构的等离子体光子学性质

张中月*、熊祖洪

科学通报 55, 2269 (2010)

(19)  空心方形银纳米结构的光学性质

张中月*、熊祖洪

中国科学:物理学 力学 天文学 40, 330 (2010)


2009年以前

(18)  The Effect of Layer Absorbance for Complex Surface Enhanced Raman Scattering Substrates

Z.-Y. Zhang, Y.-J. Liu, Q.Zhao and Y.-P. Zhao

Appl. Phys. Lett.94, 143107(2009)

(17) The Optical Properties of Helical Ag Nanostructures Calculated by Discrete Dipole Approximation Method

Z.-Y. Zhang and Y.-P. Zhao

Appl. Phys. Lett. 90, 221501 (2007)

(16)  Tuning the Optical Absorption Properties of Ag Nanorods by Their Toplogic Shapes: A Discrete Dipole Approximation Calculation

Z.-Y. Zhang and Y.-P. Zhao

Appl. Phys. Lett. 89, 023110 (2006)

(15)   Optical Properties of Helical and Multi-Ring Ag Nanostructures: the Effect of Pitch Height

Z.-Y. Zhang and Y.-P. Zhao

J. Appl. Phys. 104, 013517 (2008)

(14)  Extinction Spectra and Electrical Field Enhancement of Ag Nanordos with Different Topologic shapes

Z.-Y. Zhang and Y.-P. Zhao

J. Appl. Phys. 102, 113308 (2007)

(13)   Optical Properties of U-shaped Nanostructures

Z.-Y. Zhang and Y.-P. Zhao

J. Phys.-Condens. Mat 20, 345223 (2008)

(12) Tuning the Optical Properties by Engineering the Topological shape of Ag Nanorods

Z.-Y. Zhang and Y.-P. Zhao

Proc. SPIE 7032, 70327 (2008)

(11)  Embedding Ag Nanoparticles into MgF2 Nanorod Arrays

Y.-P. He, Z.-Y. Zhang, C. Hoffmann and Y.-P. Zhao

Adv. Funct. Mater. 18, 1676 (2008)

(10)  The Role of the Nano-Spine in the Nanocomb Arrays for Surface Enhanced Raman Scattering

Y.-J. Liu, Z.-Y. Zhang, Q.Zhao, R.A. Dluhy and Y.-P. Zhao

Appl. Phys. Lett. 94, 033103(2009)

(9)  Revisiting the Separation Dependent Surface Enhanced Raman Scattering

Y.-J. Liu, Z.-Y. Zhang and Y.-P. Zhao

Appl. Phys. Lett.93, 173106 (2008)

(8)  Anomalous Polarized Absorbance Spectra of Aligned Ag Nanorod Arrays

S. B. Chaney, Z.-Y. Zhang and Y.-P. Zhao

Appl. Phys. Lett.89, 053117 (2006)

(7)  The Surface Enhanced Raman Scattering from Ag Nanorod Array Substrate: the Site Dependent and Layer Absorbance Effect

Y.-J. Liu, Z.-Y. Zhang, Q. Zhao, R.A. Dluhy and Y.-P. Zhao

J. Phys. Chem. C 113, 9664(2009)

(6) The SERS Response f Semiordered Ag Nanorod Arrays Fabricated by Template Oblique Angle Deposition

Y.-J. Liu, Z.-Y. Zhang and Y.-P. Zhao

J. Raman Spectroscopy 41, 1112(2010)

(5)  Optical and Photocatalytic Properties of Oblique Angle Deposited TiO2 Nanorod Array

Y.-P. He, Z.-Y. Zhang and Y.-P. Zhao

J. Vac. Sci. Technol. B 26, 1350 (2008)

(4)   Structural and Optical Characterization of WO3 Nanorod/Films Prepared by Oblique Angle Deposition

   W. Smith, Z.-Y. Zhang and Y.-P. Zhang

    J. Vac. Sci. Technol. B 25, 1875 (2007)  

(3)  Absorbance Spectra of Aligned Ag Nanorod Arrays Prepared by Oblique Angle Deposition

Y.-P. Zhao, S. B. Chaney and Z.-Y. Zhang

J. Appl. Phys. 100, 063527 (2006)  

(2)  Trace Detection and Differentiation of Uranyl (VI) Ion Cast Films Utilizing Aligned Ag Nanorod SERS Substrate

C.L. Leverette, V. Aleman, S. Jokela, Z.-Y. Zhang, Y. Liu, Y. Zhao, S. Smith

Vibrational Spectroscopy 50, 143 (2009)

(1)  应用Hash函数增强数字图像半易损水印的易损性

张中月、齐开国

计算机辅助设计与图形学学报 16, 845 (2004)