[1] Liu Yang, Shilei Jiang, Guobin Sun, . Plasmonic enhanced near-infrared absorption of metal-silicon composite microstructure. Acta Optica Sinica, 40, 2124003(2020).

[2] S Banerjee, M K Das. A review of Al₂O₃ as surface passivation material with relevant process technologies on c-Si solar cell. Optical and Quantum Electronics, 53, 1-25(2021).

[3] P Sundarapura, X M Zhang, R Yogai, et al. Nanostructure of porous Si and Anodic SiO₂ surface passivation for improved efficiency porous Si solar cells. Nanomaterials, 11, 459(2023).

[4] Xin Li, Yun Li, Xu Wang, . Silicon-based InGaN/GaN multiple quantum well waveguide directional coupler photonic integrated chip for visible light communication. Journal of Electronics & Information Technology, 44, 2695-2702(2022).

[5] A K Sharma, A K Pandey. Metal oxide grating based plasmonic refractive index sensor with Si layer in optical communication band. IEEE Sensors Journal, 20, 1275-1282(2019).

[6] Qiaoli Liu, Chang Liu, Yitong Wang, . Development of silicon single photon detector and its application in high-precision satellite-to-ground time comparison (Invited). Infrared and Laser Engineering, 50, 20211004(2021).

[7] A K Katiyar, K Y Thai, W S Yun, et al. Breaking the absorption limit of Si toward SWIR wavelength range via strain engineering. Science Advances, 6, abb0576(2020).

[8] W Chen, R Liang, S Zhang, et al. Ultrahigh sensitive near-infrared photodetectors based on MoTe₂/germanium heterostructure. Nano Research, 13, 127-132(2020).

[9] [9] Saadabad R M, Pauly C, Herschbach N , et al. Highly efficient nearinfrared detect based on optically resonant dielectric nanodisks[J]. Nanomaterials, 2021, 11(2): 428.

[10] Y Liang, Q Fei, Z Liu, et al. Low-noise InGaAs/InP single-photon detector with widely tunable repetition rates. Photonics Research, 7, A1-A6(2019).

[11] J Zhang, H Wang, G Zhang, et al. High-performance InGaAs/InAlAs single-photon avalanche diode with a triple-mesa structure for near-infrared photon detection.. Optics letters, 46, 2670-2673(2021).

[12] Z Xie, Z Deng, X Zou, et al. InP based near infrared/extended-short wave infrared dual-band photodetector. IEEE Photonics Technology Letters, 32, 1003-1006(2020).

[13] H J Syu, Y C Huang, Z C Su, et al. An alternative to compound semiconductors using a Si-based IR detector. IEEE Transactions on Electron Devices, 69, 205-211(2022).

[14] N Li, Y Tian, J Bao, et al. Design of broadband high efficiency absorption antenna based on metamaterial nano-ring array. Frontiers in Materials, 9, 1012936(2022).

[15] [15] Aïssa B, Ali A, Pereira R N, et al. Preparation of plasmonic Ag Au nanoparticle interfaces f photocurrent enhancement in Si solar cells[C]2022 IEEE 49th Photovoltaics Specialists Conference (PVSC), 2022.

[16] Tongqing Liao, Lulu Peng, Sheng Wu, .. Reduce reflected light from silicon solar cells based on optical microstructure. Infrared and Laser Engineering, 44, 201-204(2015).

[17] Y Kantor, D J Bergman. The optical properties of cermets from the theory of electrostatic resonances. Journal of Physics C: Solid State Physics, 15, 2033-2042(1982).

[18] J Sancho-Parramon. Surface plasmon resonance broadening of metallic particles in the quasi-static approximation: a numerical study of size confinement and interparticle interaction effects. Nanotechnology, 20, 235706(2009).

[19] J Y Lu, A Raza, N X Fang, et al. Effective dielectric constants and spectral density analysis of plasmonic nanocomposites. Journal of Applied Physics, 120, 163103(2016).

[20] Zhonglei Mei, Li Zhang, Tiejun. Cui. Recent advances on metamaterials. Science & Technology Review, 34, 27-39(2016).

[21] M Piralaee, A Asgari. Modeling of optimum light absorption in random plasmonic solar cell using effective medium theory. Optical Materials, 62, 399-402(2016).

[22] S Pillai, K R Catchpole, T Trupke, et al. Surface plasmon enhanced silicon solar cells. Journal of Applied Physics, 101, 093105(2007).