Sol En Mater Sol Cells 2006, 90:3327–3338.CrossRef
48. Badescu V, Badescu AM: Improved model for solar cells with up-conversion of low-energy photons. Renew Energy 2009, 34:1538–1544.selleck chemicals llc CrossRef 49. Richards BS, Shalav A: The role of polymers in the luminescence conversion of sunlight for enhanced solar cell performance. Synth Met 2005, 154:61–64.CrossRef 50. Atre AC, Dionne JA: Realistic upconverter-enhanced solar cells with non-ideal absorption and recombination efficiencies. J Appl Phys 2011, 110:034505.CrossRef 51. Richards BS, Shalav A: Enhancing the near-infrared spectral response of silicon optoelectronic devices via up-conversion. IEEE Transactions on Electron Devices 2007, selleck chemical 54:2679–2684.CrossRef 52. Fischer S, Goldschmidt JC, Löper P, Bauer GH, Brüggemann R, Krämer K, Biner D, Hermle M, Glunz SW: Enhancement of silicon solar cell efficiency by upconversion: optical and electrical characterization. J Appl Phys 2010, 108:044912.CrossRef 53. Goldschmidt JC, Fischer S, Löper P, Krämer KW, Biner D, Hermle M, Glunz SW: Experimental analysis of upconversion with both coherent monochromatic
irradiation and broad spectrum illumination. Sol En Mater Sol Cells 2011, 95:1960–1963.CrossRef 54. Liu M, Lu Y, Xie ZB, Chow GM: Enhancing near-infrared solar cell response using upconverting MX69 solubility dmso transparent ceramics. Sol En Mater Sol Cells 2011, 95:800–803.CrossRef 55. Shan G, Demopoulos Decitabine research buy GP: Near-infrared sunlight harvesting in dye-sensitized solar cells via the insertion of an upconverter-TiO 2 nanocomposite layer. Adv Mater 2010, 22:4373–4377.CrossRef 56. Cheng YY, Fückel B, MacQueen RW, Khoury T, Clady RGRC, Schulze TF, Ekins-Daukes NJ, Crossley MJ, Stannowski B, Lips K,
Schmidt TW: Improving the light-harvesting of amorphous silicon solar cells with photochemical upconversion. Energy Environ Sci 2012, 5:6953–6959.CrossRef 57. Schropp REI, Zeman M: Amorphous and Microcrystalline Silicon Solar Cells: Modeling, Materials, and Device Technology. Boston: Kluwer; 1998.CrossRef 58. De Wild J, Rath JK, Meijerink A, Van Sark WGJHM, Schropp REI: Enhanced near-infrared response of a-Si:H solar cells with β-NaYF 4 :Yb 3+ (18%), Er 3+ (2%) upconversion phosphors. Sol En Mater Sol Cells 2010, 94:2395–2398.CrossRef 59. De Wild J, Duindam TF, Rath JK, Meijerink A, Van Sark WGJHM, Schropp REI: Increased upconversion response in a-Si:H solar cells with broad band light. IEEE Journal of Photovoltaics 2013, 3:17–21.CrossRef 60. Pan AC, Del Cañizo C, Cánovas E, Santos NM, Leitão JP, Luque A: Enhancement of up-conversion efficiency by combining rare earth-doped phosphors with PbS quantum dots. Sol En Mater Sol Cells 2010, 94:1923–1926.CrossRef 61. Barnes WL, Dereux A, Ebbesen TW: Surface plasmon subwavelength optics. Nature 2003, 424:824–830.CrossRef 62. Atre AC, García-Etxarri A, Alaeian H, Dionne JA: Toward high-efficiency solar upconversion with plasmonic nanostructures.