[1] J Clevelanda, T J Montvillea, I F Nesb, M L Chikindas. Bacteriocins: safe, natural antimicrobials for food preservation. Int J Food Microbiol, 71, 1-20(2001).

[2] O'Mara W C, Herring R B, Hunt L P. Handbook of Semiconductor Silicon Technology (Noyes Publications, 1990)..

[3] S Bradbury. The microscope: past and present(1968).

[4] F Qin, K Huang, J F Wu, J H Teng, C W Qiu et al. A supercritical lens optical label-free microscopy: sub-diffraction resolution and ultra-long working distance. Adv Mater, 29, 1602721(2017).

[5] F Qin, L Ding, L Zhang, F Monticone, C C Chum et al. Hybrid bilayer plasmonic metasurface efficiently manipulates visible light. Sci Adv, 2, 1-9(2016).

[6] F Qin, K Huang, J F Wu, J Jiao, X G Luo et al. Shaping a subwavelength needle with ultra-long focal length by focusing azimuthally polarized light. Sci Rep, 5, 9977(2015).

[7] Y T Wang, B H Cheng, Y Z Ho, Y C Lan, P G Luan et al. Gain-assisted hybrid-superlens hyperlens for nano imaging. Opt Express, 20, 22953-22960(2012).

[8] Y H Lin, D P Tsai. Near-field scanning optical microscopy using a super-resolution cover glass slip. Opt Express, 20, 16205-16211(2012).

[9] T Fukaya, D Buchel, S Shinbori, J Tominaga, N Atoda et al. Micro-optical nonlinearity of a silver oxide layer. J Appl Phys, 89, 6139-6144(2001).

[10] Y Li, X Li, L W Chen, M B Pu, J J Jin et al. Orbital angular momentum multiplexing and demultiplexing by a single metasurface. Adv Opt Mater, 5, 1600502(2017).

[11] X Li, L W Chen, Yang Li, X H Zhang, M B Pu et al. Multicolor 3D meta-holography by broadband plasmonic modulation. Sci Adv, 2, e1601102(2016).

[12] B Huang, W Q Wang, M Bates, X W Zhuang. Three-dimensional super-resolution imaging by stochastic optical reconstruction microscopy. Science, 319, 810-813(2008).

[13] E Betzig, G H Patterson, R Sougrat, O W Lindwasser, S Olenych et al. Imaging intracellular fluorescent proteins at nanometer resolution. Science, 313, 1642-1645(2006).

[14] G Binnig, H Rohrer. Scanning tunneling microscopy. IBM J Res Dev, 4, 355-369(1986).

[15] X Luo. Principles of electromagnetic waves in metasurfaces. Sci China: Phys Mech Astron, 58, 594201(2015).

[16] Y T Wang, B H Cheng, Y Z Ho, Y C Lan, P G Luan et al. Optical hybrid-superlens hyperlens for superresolution imaging. IEEE J Sel Top Quantum Electron, 19, 4601305(2013).

[17] B H Cheng, Y C Lan, D P Tsai. Breaking optical diffraction limitation using optical hybrid-super-hyperlens with radially polarized light. Opt Express, 21, 14898-14906(2013).

[18] X Luo, T Ishihara. Surface plasmon resonant interference nanolithography technique. Appl Phys Lett, 84, 4780-4782(2004).

[19] D Tang, C Wang, Z Zhao, Y Wang, M Pu et al. Ultrabroadband superoscillatory lens composed by plasmonic metasurfaces for subdiffraction light focusing. Laser Photonics Rev, 9, 713-719(2015).

[20] . So Much More to Know. Science, 309, 78-102(2005).

[21] N Yu, P Genevet, M A Kats, F Aieta, J -P Tetienne et al. Light propagation with phase discontinuities: generalized laws of reflection and refraction. Science, 334, 333-337(2011).

[22] M Pu, X Li, X Ma, Y Wang, Z Zhao et al. Catenary optics for achromatic generation of perfect optical angular momentum. Sci Adv, 1, e1500396(2015).

[23] X Li, M Pu, Y Wang, X Ma, Y Li et al. Dynamic control of the extraordinary optical scattering in semicontinuous 2d metamaterials. Adv Opt Mater, 4, 659-663(2016).

[24] Z B Wang, W Guo, L Li, B Luk'yanchuk, A Khan, Z Liu et al. Optical virtual imaging at 50 nm lateral resolution with a white-light nanoscope. Nat Commun, 2, 218(2011).

[25] H Yang, R Trouillon, G Huszka, M A M Gijs. Super-resolution imaging of a dielectric microsphere is governed by the waist of its photonic nanojet. Nano Lett, 16, 4862-4870(2016).

[26] A Darafsheh, C Guardiola, A Palovcak, J C Finlay, A Cárabe. Optical super-resolution imaging by high-index microspheres embedded in elastomers. Opt Lett, 40, 5-8(2015).

[27] F F Wang, L Q Liu, P Yu, Z Liu, H B Yu et al. Three-dimensional super-resolution morphology by near-field assisted white-Light interferometry. Sci Rep, 6, 24703(2016).

[28] A Darafsheh, N I Limberopoulos, J S Derov, D E Walker, V N Astratov. Advantages of microsphere-assisted super-resolution imaging technique over solid immersion lens and confocal microscopies. Appl Phys Lett, 104, 61117(2014).

[29] F F Wang, L Q Liu, H B Yu, Y D Wen, P Yu et al. Scanning superlens microscopy for non-invasive large field-of-view visible light nanoscale imaging. Nat Commun, 7, 13748(2016).

[30] M Born, E Wolf. Principles of optics; electromagnetic theory of propagation, interference, and diffraction of light(1975).

[31] Soroko L M.. Meso-optics, foundations and applications (World Scientific, 1996)..

[32] Hong Wu M.. Immersion Nanoscope Lens Assembly Chip for Super-resolution Imaging. PRV 10201608343Y (2016)..

[33] G M Dunny, T J Brickman, M Dworkin. Multicellular behavior in bacteria, communication, cooperation, competition and cheating. Bio Essays, 30, 296-298(2008).