[1] Cheng R T, Peng M J[M]. Basic and application of CCD/CMOS image sensor.

[2] Stern R A, Catura R C, Kimble R et al. Ultraviolet and extreme ultraviolet response of charge-coupled-device detectors[J]. Optical Engineering, 26, 875-883(1987).

[3] Muramatsu M, Akahori H, Shibayama K et al. Greater-than-90% QE in visible spectrum perceptible from UV to near-IR Hamamatsu thinned back-illuminated CCDs[J]. Proceedings of SPIE - The International Society for Optical Engineering, 3019, 2-8(1997).

[4] Hoenk M E, Grunthaner P J, Grunthaner F J et al. Growth of a delta-doped silicon layer by molecular beam epitaxy on a charge-coupled device for reflection-limited ultraviolet quantum efficiency[J]. Applied Physics Letters, 61, 1084-1086(1992).

[5] Nikzad S, Hoenk M E, Greer F et al. Delta-doped electron-multiplied CCD with absolute quantum efficiency over 50% in the near to far ultraviolet range for single photon counting applications[J]. Applied Optics, 51, 365-369(2012).

[6] Hoenk M E, Dereniak E L, Hartke J P et al. Delta-doped back-illuminated CMOS imaging arrays: progress and prospects[J]. Proceedings of SPIE-The International Society for Optical Engineering, 7419(2009).

[7] Halain J P, Debaize A, Gillis J M et al. The dual-gain 10 µm back-thinned 3k×3k CMOS-APS detector of the solar orbiter extreme UV Imager[J]. International Society for Optics and Photonics, 9144, 914431(2014).

[8] Hamden E T, Jewell A D, Shapiro C A et al. Charge-coupled devices detectors with high quantum efficiency at UV wavelengths[J]. Journal of Astronomical Telescopes, Instruments, and Systems, 2, 036003(2016).

[9] Galluzzif F, Scafe E. spectrum shifting of sunlight by luminescent sheets:performance evaluation of photovoltaic applications[J]. Solar Energy, 33, 501-507(1984).

[10] Garbuzov D Z, Forrest S R, Tsekoun A G et al. Organic films deposited on Si p-n junctions: Accurate measurements of fluorescence internal efficiency, and application to luminescent antireflection coatings[J]. Journal of Applied Physics, 80, 4644-4648(1996).

[11] Van S W, Meijerink A, Schropp R et al. Enhancing solar cell efficiency by using spectral converters[J]. Solar Energy Materials and Solar Cells, 87, 395-409(2005).

[12] Maruyama T, Enomoto, A, Shirasawa K. Solar cell module colored with fluorescent plate[J]. Solar Energy Materials and Solar Cells, 64, 269-278(2000).

[13] Hovel H J, Hodgson R T, Woodall J M. The effect of fluorescent wavelength shifting on solar cell spectral response[J]. Solar Energy Materials, 2, 19-29(1979).

[14] Blouke M M, Cowens M W, Hall J E et al. A UV sensitive CCD detector[C], 141-143(1979).

[15] Cowens M W, Blouke M M, Fairchild T et al. Coronene and Lumogen VUV sensitive coatings for Si CCD imagers: a comparison[J]. Applied Optics, 19, 3727-3728(1980).

[16] Zhang D W, Tian X, Huang Y S et al. Preparation and spectral characterization of UV-sensitive lumogen film with CCD[J]. Spectroscopy and Spectral Analysis, 30, 1171-1174(2010).

[17] Liu Q, Ma S B, Qian X C et al. Thickness optimization and photoelectric performance test of UV sensitized film of CMOS sensor[J]. Acta Photonica Sinica.

[18] Ciesielski A, Krygowski T M, Cyranski M et al. Separation of the energetic and geometric contributions to aromaticity. 2. analysis of the aromatic character of benzene rings in their various topological environments in the benzenoid hydrocarbons. crystal and molecular structure of coronene[J]. Journal of Chemical Information & Modeling, 36, 1135-1141(1996).

[19] Tauc J, Menth A. States in the gap[J]. Journal of Non-Crystalline Solids, 8, 569-585(1972).

[20] Farag A, Haggag S, Mahmoud M E. Spectral, thermal and optical-electrical properties of deposited thin films of nano-sized calcium (II)-8-hydroxy-5,7-dinitroquinolate complex[J]. Spectrochimica Acta Part A: Molecular & Biomolecular Spectroscopy, 82, 467-474(2011).

[21] Obayes H R, Alwan G H, Al-Amiery A A et al. Thermodynamic and theoretical study of the preparation of new buckyballs from corannulene, coronene, and circulene[J]. Journal of Nanomaterials, 2013, 1-8(2013).

[22] Blasse G. Energy transfer in oxidic phosphors[J]. Physics Letters A, 28, 444-445(1968).

[23] Dexter D L. A theory of sensitized luminescence in solids[J]. The Journal of Chemical Physics, 21, 836-850(1953).

[24] Merrick J P, Moran D, Radom L. An evaluation of harmonic vibrational frequency scale factors[J]. Journal of Physical Chemistry A, 111, 11683-11700(2007).