2021 and before

Current location：homepage Publications 2021 and before

1.Yang Chen,Xiaodong Yang,Jie Gao. 3D Janus plasmonic helical nanoapertures for polarization-encrypted data storage. Light: Science & Applications, 2019, 8, 45.[ LINK ][ Paper.pdf ]

HighLighted By [ phys.org ][ Light: Science & Applications ]

2.Yang Chen,Xiaodong Yang,Jie Gao.Spin-controlled wavefront shaping with plasmonic chiral geometric metasurfaces. Light: Science & Applications, 2018, 7, 84.[ LINK ][ Paper.pdf ]

3.Yang Chen,Chen Zhao,Yongzhe Zhang,Cheng-wei Qiu. Integrated molar chiral sensing based on high-Q metasurface. Nano Letters, 2020, 20(12): 8696-8703.[ LINK ][ Paper.pdf ]

4.Yang Chen,Jie Gao,Xiaodong Yang. Chiral metamaterials of plasmonic slanted nanoapertures with symmetry breaking. Nano letters, 2018, 18(1): 520-527.[ LINK ][ Paper.pdf ]

5.Yang Chen,Jie Gao,Xiaodong Yang. Direction‐controlled bifunctional metasurface polarizers. Laser & Photonics Reviews, 2018, 12(12): 1800198.[ LINK ][ Paper.pdf ]

6.Yang Chen,Jie Gao,Xiaodong Yang. Chiral grayscale imaging with plasmonic metasurfaces of stepped nanoapertures. Advanced Optical Materials, 2019, 7(6): 1801467.[ LINK ][ Paper.pdf ]

7.Yang Chen,Xiaodong Yang,Jie Gao. Spin‐Selective Second‐Harmonic Vortex Beam Generation with Babinet‐Inverted Plasmonic Metasurfaces. Advanced Optical Materials, 2018, 6(19): 1800646.[ LINK ][ Paper.pdf ]

8.Yang Chen,Yuhang Chen,Jiaru Chu,Xianfan Xu. Bridged bowtie aperture antenna for producing an electromagnetic hot spot. Acs Photonics, 2017, 4(3): 567-575.[ LINK ][ Paper.pdf ]

9.Yang Chen,Jin Qin,Jianfeng Chen,Liang Zhang,Chengfu Ma,Jiaru Chu,Xianfan Xu,Liang Wang. 16 nm-resolution lithography using ultra-small-gap bowtie apertures. Nanotechnology, 2016, 28(5): 055302.[ LINK ][ Paper.pdf ]

10.Yang Chen,Jiaru Chu,Xianfan Xu. Plasmonic multibowtie aperture antenna with Fano resonance for nanoscale spectral sorting. Acs Photonics, 2016, 3(9): 1689-1697.[ LINK ][ Paper.pdf ]

11.Yang Chen,Jianfeng Chen,Xianfan Xu,Jiaru Chu. Fabrication of bowtie aperture antennas for producing sub-20 nm optical spots. Optics express, 2015, 23(7): 9093-9099.[ LINK ][ Paper.pdf ]

12.Te Wen,Weidong Zhang,Shuai Liu,Aiqin Hu,Jingyi Zhao,Yu Ye,Yang Chen,Cheng-Wei Qiu,Qihuang Gong,Guowei Lu. Steering valley-polarized emission of monolayer MoS2 sandwiched in plasmonic antennas. Science advances, 2020, 6(21): eaao0019.[ LINK ][ Paper.pdf ]

13.Jungho Mun,Minkyung Kim,Younghwan Yang,Trevon Badloe,Jincheng Ni,Yang Chen,Cheng-Wei Qiu,Junsuk Rho. Electromagnetic chirality: from fundamentals to nontraditional chiroptical phenomena. Light: Science & Applications, 2020, 9, 139.[ LINK ][ Paper.pdf ]

14.Liangui Deng,Juan Deng,Zhiqiang Guan,Jin Tao,Yang Chen,Yan Yang,Daxiao Zhang,Jibo Tang,Zhongyang Li,Zile Li,Shaohua Yu,Guoxing Zheng,Hongxing Xu,Cheng-Wei Qiu,Shuang Zhang. Malus-metasurface-assisted polarization multiplexing. Light: Science & Applications, 2020, 9, 101. [ LINK ][ Paper.pdf ]

15.Mengqi Liu, Chen Zhao, Yixuan Zeng, Yang Chen, Changying Zhao, and Cheng-Wei Qiu. Evolution and nonreciprocity of loss-induced topological phase singularity pairs. Physical Review Letters, 2021, 127(26): 266101. [ LINK ][ Paper.pdf ]

16.Naseer Muhammad,Yang Chen,Cheng-Wei Qiu,Guo Ping Wang. Optical bound states in continuum in MoS2-based metasurface for directional light emission. Nano Letters, 2021, 21(2): 967-972. [ LINK ][ Paper.pdf ]

17.Yueyi Yuan,Shang Sun,Yang Chen,Kuang Zhang,Xumin Ding,Badreddine Ratni,Qun Wu,Shah Nawaz Burokur,Cheng‐Wei Qiu. A fully phase‐modulated metasurface as an energy‐controllable circular polarization router. Advanced Science, 2020, 7(18): 2001437. [ LINK ][ Paper.pdf ]

18.Guangtao Cao,Shaohua Dong,Lei‐Ming Zhou,Qing Zhang,Yan Deng,Cong Wang,Han Zhang,Yang Chen,Cheng‐Wei Qiu,Xinke Liu. Fano resonance in artificial photonic molecules. Advanced Optical Materials, 2020, 8(10): 1902153. [ LINK ][ Paper.pdf ]

19.Li Ding,Jin Qin,Yang Chen,Liang Wang. Numerical and experimental study of near-field scanning optical lithography using nanoscale bowtie apertures with ultrasmall gap size. Journal of Micro/Nanolithography, MEMS, and MOEMS, 2016, 15(3): 031611. [ LINK ][ Paper.pdf ]