[1] [1] Low T ,Roldin R ,Wang H ,etal. Plasmonsand screeningin monolayerand multilayer black phosphorus[J] . Phys. Rev. Lett. ,2014 ,113(10) : 106802.

[2] [2] Guo Q S ,Li C ,Deng B C ,et al. Infrared nanophotonics based on graphene plasmonics[J] . Acs Photon. ,2017 ,4(12) : 2989-2999.

[3] [3] Yao W ,Tang L ,Wang J ,et al. Spectrally and spatially tunable terahertz metasurface lens based on graphene surface plasmons[J] . IEEE Photon. J. ,2018 ,10(4) : 1-8.

[4] [4] Yao W ,Tang L ,Wang J ,et al. Anomalous redshift of graphene absorption induced by plasmon-cavity competition [J] . Opt. Express ,2020 ,28(25) : 38410-38418.

[5] [5] Yao W ,Tang L ,NongJ ,etal. Electrically tunable graphene metamaterial with strong broadband absorption [J] .Nanotechnol. ,2020 ,32(7) : 075703.

[6] [6] SarkarD ,Liu W ,Xie X J ,et al. MoS2 field-effect transistor for next-generation label-free biosensors[ J] . Acs Nano. ,2014 ,8(4) : 3992-4003.

[7] [7] Wang Y ,CuiDJ ,Wang Y ,et al. Electrically and thermally tunable multifunctionalterahertz metasurfacearray[J] . Phys. Rev. A ,2022 ,105(3) : 033520.

[8] [8] LandyN I ,Sajuyigbe S ,Mock J J ,et al. Perfect metamaterial absorber[J] . Phys. Rev. Lett. ,2008 ,100(20) : 207402.

[9] [9] Huang XJ ,Zhou Z L ,Cao M ,et al. Ultra-broadband mid- infrared metamaterialabsorberbased on multi-sized resonators[J] . Materials ,2022 ,15(15) : 5411.

[10] [10] Qin Z ,Meng D J ,Yang F M ,et al. Broadband long-wave infrared metamaterialabsorberbased on single-sized cut-wire resonators[J] . Opt. Express ,2021 ,29(13) : 20275-20285.

[11] [11] Feng H ,Xu Z X ,Li K ,et al. Tunable polarization- independent and angle-insensitive broadband terahertz absorber with graphene metamaterials[J] . Opt. Express ,2021 ,29(5) : 7158-7167.

[12] [12] Zhang M ,Song Z Y. Switchable terahertz metamaterial absorberwithbroadband absorption and multiband absorption [J] . Opt. Express ,2021 ,29(14) : 21551-21561.

[13] [13] Liu H T ,Wu B Y ,Yang B ,et al. Gradient index effect assisted anisotropic broadband absorption in a-MoO3 metamaterial[J] . Appl. Opt. ,2023 ,62(11) : 2711-2719.

[14] [14] Luxmoore IJ ,Gan C H ,Liu P Q ,et al. Strong coupling in the far-infrared between graphene plasmons and the surface opticalphonons ofsilicon dioxide[J] . Acs Photon. ,2014 ,1(11) : 1151-1155.

[15] [15] Deng T L ,Zheng Z P ,Bian L ,et al. Ultra-broadband polarisation-insensitive far infrared absorber based on an umbrella tungsten array structure [J] . Opt. Communications ,2023 ,545(8) : 129651.

[16] [16] IshiiT ,Sato T. Growth ofsinglecrystalsofhexagonalboron nitride-ScienceDirect[J] . J. of Crystal Growth ,1983 ,61(3) : 689-690.

[17] [17] HosseinbeigA ,Pirooj A ,Zarrabi F B. A reconfigurable subwavelength plasmonic fano nano-antenna based on split ring resonator[J] . J. ofMagnetism and Magnetic Materials ,2017 ,423: 203-207.

[18] [18] Kim K ,Choi J Y ,Kim T ,et al. A role for graphene in silicon-based semiconductor devices[J] . Nature ,2011 ,479(7373) : 338-344.

[19] [19] Zhao X L ,Yuan C ,Zhu L ,et al. Graphene-based tunable terahertz plasmon-induced transparency metamaterial[J] . Nanoscale ,2016 ,8(33) : 15273-15280.

[20] [20] FalkovskyL A ,Varlamov A A. Space-time dispersion of graphene conductivity[J] . European Phys. J. B. ,2007 ,56(4) : 281-284.

[21] [21] Wang B ,Zhang X ,Yuan X ,et al. Optical coupling of surface plasmons between graphene sheets[J] . Appl. Phys. Lett. ,2012 ,100(13) : 131111.

[22] [22] Xiao G ,Lin Z ,Yang H ,et al. Tunable and anisotropic perfectabsorber using graphene-black phosphorus nanoblock [J] . Optics Express ,2022 ,30(13) : 23198-23207.

[23] [23] Yang H ,Li Z ,Mei Z ,et al. Background insensitive polarization-independent ultra-broadband metamaterial perfectabsorber in mid-infrared regions[J] . IEEE Photon. J. ,2022 ,14(5) : 1-6.

[24] [24] Abdelsalam M ,Swillam M A. Ultra-broadband MIR super absorber using all silicon metasurface of triangular doped nanoprisms[J] . Scientific Reports ,2022 ,12(1) : 14802.

[25] [25] ShiX ,Hou E ,Liang Z ,et al. Broadband metamaterial absorberbased on hybrid multi-mode resonance in mid-wave and long-wave infrared region[J] . Results in Physics ,2022 ,42: 105972.

[26] [26] Chen S ,Li Z ,Wu L ,et al. Ultra-long-wave infrared broadband absorber based on a nano-resonant ring structure [J] . OpticalMaterials Express ,2023 ,13(6) : 1579-1588.

[27] [27] CaiY ,Xu K ,Feng N ,etal. Anisotropic infrared plasmonic broadband absorber based on graphene-black phosphorus multilayers[J] . Optics Express ,2019 ,27(3) : 3101-3112.

[28] [28] AbbasiM ,Biabanifard M ,Abrishamian M S. Design of symmetrical wide-angle graphene-based mid-infrared broadband perfect absorber based on circuit model [ J] . Photonics and Nanostructures-Fundamentals and Applications ,2019 ,36(8) : 100729.