[1] A M PACKER, L E RUSSELL, H W P DALGLEISH. Simultaneous all-optical manipulation and recording of neural circuit activity with cellular resolution in vivo. Nature Methods, 12, 140-146(2015).
[2] S KHASMINSKAYA, F PYATKOV, K SLOWIK. Fully integrated quantum photonic circuit with an electrically driven light source. Nature Photonics, 10, 727-732(2016).
[3] E HUTTER, J H FENDLER. Exploitation of localized surfaceplasmon resonance. Advanced Materials, 16, 1685-1706(2004).
[7] Yu ZENG, Xi-fang CHEN, Zao YI. Fabrication of pn heterostructure ZnO/Si moth-eye structures:Antireflection, enhanced charge separation and photocatalytic properties. Applied Surface Science, 441, 40-48(2018).
[9] Rui GUO, M DECKER, F SETZPFANDT. Plasmonic fano nanoantennas for on-chip separation of wavelength-encoded optical signals. Nano Letters, 15, 3324-3328(2015).
[10] C HECK, Y KANEHIRA, J KNEIPP. Placement of single proteins within the sers hot spots of self-assembled silver nanolenses. Angewandte Chemie International Edition, 57, 7444-7447(2018).
[11] I A NECHEPURENKO, E S ANDRIANOV, A A ZYABLOVSKY. Absorption sensor based on graphene plasmon quantum amplifier. Physical Review B, 98, 075411(2018).
[12] Hua LU, Chao ZENG, Qi-ming ZHANG. Graphene-based active slow surface plasmon polaritons. Scientific Reports, 5, 8443-8449(2015).
[13] Lei ZHAO, Xin ZHANG, Jun WANG. A novel broadband band-pass filter based on spoof surface plasmon polaritons. Scientific Reports, 6, 36069(2016).
[14] Zao YI, Cui-ping LIANG, Xi-fang CHEN. Dual-band plasmonic perfect absorber based on graphene metamaterials for refractive index sensing application. Micromachines, 10, 443-453(2019).
[15] Jing HUANG, Gao NIU, Zao YI. High sensitivity refractive index sensing with good angle and polarization tolerance using elliptical nanodisk graphene metamaterials. Physica Scripta, 94, 085805(2019).
[16] Zhi-bin REN, Ya-hui SUN, Shu-qing ZHANG. Active optical switches based on polarization-tuned guided-mode resonance filters for optical communication. Optics Communications, 426, 383-387(2018).
[17] Hui-zhan YANG, Yun-xin KUAN, Tuo-wen XIANG. Broadband polarization-insensitive optical switch on silicon-on-insulator platform. Optics Express, 26, 14340-14345(2018).
[18] Xiao-yong HU, Ping JIANG, Cheng-yuan DING. Picosecond and low-power all-optical switching based on an organic photonic-bandgap microcavity. Nature Photonics, 2, 185-189(2008).
[19] Zheng-qi LIU, Guo-lan FU, Zhen-ping HUANG. Multi-band ultra-sharp transmission response in all-dielectric resonant structures containing Kerr nonlinear media. Plasmonics, 12, 577-582(2017).
[20] Gao-neng DONG, Yi-lun WANG, Xin-liang ZHANG. High-contrast and low-power all-optical switch using Fano resonance based on a silicon nanobeam cavity. Optics Letters, 43, 5977-5980(2018).
[21] Ming CAI, Shu-long WANG, Bo GAO. a new electro-optical switch modulator based on the surface plasmon polaritons of graphene in mid-infrared band. Sensors, 19, 89-97(2019).
[22] Xiao-ping HUANG, Kai CHEN, Ming-xi QI. Nanostructured grating patterns over a large area fabricated by optically directed assembly. Nanoscale, 8, 13342-13351(2016).
[23] Xiao-ping HUANG, Kai CHEN, Ming-xi QI. Plasmonic field guided patterning of ordered colloidal nanostructures. Nanophotonics, 8, 505-512(2019).
[24] Yong-hong LING, Li-rong HUANG, Wei HONG. Polarization-controlled dynamically switchable plasmon-induced transparency in plasmonic metamaterial. Nanoscale, 10, 19517-19523(2018).
[25] Xiao-shan LIU, Gui-qiang LIU, Gao-lan FU. Monochromatic filter with multiple manipulation approaches by the layered all-dielectric patch array. Nanotechnology, 27, 125202(2016).
[26] Xiao-shan LIU, Gui-qiang LIU, Peng TANG. Quantitatively optical and electrical-adjusting high-performance switch by graphene plasmonic perfect absorbers. Carbon, 140, 362-367(2018).
[27] Zheng-qi LIU, Peng TANG, Biao WU. Split graphene nano-disks with tunable, multi-band, and high-Q plasmon modes. Optical Materials, 89, 18-24(2019).
