[1] J BAZARS F, P LONG J, J GEMSBOK Q et al. Mie resonance- enhanced light absorption in periodic silicon nanopillar arrays. Optics Express, 21, 27587-27601(2013).

[2] I KUZNETSOVA A, E MIROSHNICHENKO A, L BRONGERSMA M et al. Optically resonant dielectric nanostructures. Science, 354(2016).

[3] M DECKER, I STAUDE. Resonant dielectric nanostructures: a low loss platform for functional nanophotonics. Journal of Optics, 18(2016).

[4] RUI YU, F LIN Q, F LEUNG S et al. Nanomaterials and nanostructures for efficient light absorption and photovoltaics. Nano Energy, 1, 57-72(2012).

[5] E STEWART MATTHEW, R ANDERTON CHRISTOPHER, B THOMPSON LUCAS et al. Nanostructured plasmonic sensors. Chem. Rev, 108, 494-521(2008).

[6] HONGWEI GAO, HOO PATRICK TUNG KAR, JINGHUA TENG et al. Coupling of surface plasmon with InGaAs/GaAs quantum well emission by gold nanodisk arrays. Applied Optics, 52, 3698-3702(2013).

[7] F GARRELIE, P COLOMBIER J, F PIGEON et al. Evidence of surface plasmon resonance in ultrafast laser-induced ripples. Optics Express, 19, 9035-9043(2011).

[8] SERGEY KRUK, YURI KIVSHAR. Functional meta-optics and nanophotonics governed by Mie resonances. ACS Photonics, 4, 2638-2649(2017).

[9] E KIM, Y CHO, T PARK K et al. Mie resonance-mediated antireflection effects of Si nanocone arrays fabricated on 8-in. wafers using a nanoimprint technique. Nano Research Letters, 10(2015).

[10] HSING FU YUAN, I KUZNETSOV ARSENIY, E MIROSHNICHENKO ANDREY et al. Directional visible light scattering by silicon nanoparticles. Nature Communications, 4(2013).

[11] P SPINELLI, A VERSCHOOR M, A POLMAN. Broadband omnidirectional antireflection coating based on subwavelength surface Mie resonators. Nature Communications, 3(2012).

[12] M GARIN, R FENOLLOSA, R ALCUBILLA et al. All-silicon spherical-Mie-resonator photodiode with spectral response in the infrared region. Nature Communications, 5(2014).

[13] P SPINELLI, A POLMAN. Light trapping in thin crystalline Si solar cells using surface Mie scatterers. IEEE Journal of Photovoltaics, 4, 554-559(2014).

[14] L BRONGERSMA MARK, YI CUI et al. Light management for photovoltaics using high-index nanostructures. Nature Materials, 13, 451-460(2014).

[15] D GARCIA P, M IBISATE, R SAPIENZA et al. Mie resonances to tailor random lasers. Physical Review A, 80(2009).

[16] R SHCHERBAKOV M, P VABISHCHEVICH P, S SHOROKHOV A et al. Ultrafast all-optical switching with magnetic resonances in nonlinear dielectric nanostructures. Nano Letters, 15, 6985-6990(2015).

[17] G BOUNDARHAM, R ABDEDDAIM, N BONOD. Enhancing the magnetic field intensity with a dielectric gap antenna. Applied Physics Letters, 104(2014).

[18] O YAVAS, M SVEDENDAHL, P DOBOSZ et al. On-a-chip biosensing based on all-dielectric nanoresonators. Nano Lett, 17, 4421-4439(2017).

[19] K LI R, H TO, G ANDONIAN et al. Surface-plasmon resonance- enhanced multiphoton emission of high-brightness electron beams from a nanostructured copper cathode. Physical Review Letters, 110(2013).

[20] C SHEMELYA, F DEMEO D, T E VANDERVELDE. Two dimensional metallic photonic crystals for light trapping and anti-reflective coatings in thermophotovoltaic applications. Applied Physical Letters, 104(2014).

[21] N KOOY, K MOHAMED, T PIN L et al. A review of roll-to-roll nanoimprint lithography. Nanoscale Research Letters, 9(2014).

[22] LUPING LI, FANG YIN, XU CHEN et al. Controlling the geometries of Si nanowires through tunable nanosphere lithography. Applied Materials & Interfaces, 9, 7368-7375(2017).

[23] ZHONGYU CAI, L SMITH NATASHA, JIAN-TAO ZHANG et al. Two-dimensional photonic crystal chemical and biomolecular sensors. Anal. Chem, 87, 5013-5025(2015).

[24] BO YANG, HUI HE, YANGBO ZHOU et al. Application of fumed silica to polymer fields. Chemical Industry and Engineering Progress, 24, 372-377(2005).

[25] ZICHEN WANG, LIWEI WANG, JINGZHE ZHAO et al. Preparation of ultrafine SiO₂ powders with large specific surface area. Journal of Inorganic Materials, 12, 391-396(1997).

[26] P MOULIK S, K PAUL B. Uses and applications of microemulsions. Current Science, 80, 990-1001(2001).

[27] YIZHI WU, CHENG ZHANG, YE YUAN et al. Fabrication of wafer-size monolayer close-packed colloidal crystals via slope self-assembly and thermal treatment. Langmuir, 29, 14017-14023(2013).

[28] C WU C, C HSU C, C LIN Y et al. Optical property of an antireflection coating fabricated by an optimal spin-coating method with a pH-modified SiO₂ nanoparticle solution. Chinese Optics Letters, 15, 1671-7694(2017).

[29] L CHEN S, P DONG, H YANG G et al. Characteristic aspects of formation of new particles during the growth of monosize silica seeds. Journal of Colloid and Interface Science, 180, 237-241(1996).