[1] LEWIS N S. Research opportunities to advance solar energy utilization. Science, 2016, 351: aad1920. [2] TRAVERSE C J, PANDEY R, BARR M C,et al. Emergence of highly transparent photovoltaics for distributed applications. Nature Energy, 2017, 2: 849-860. [3] SHOCKLEY W, QUEISSER H J.Detailed balance limit of efficiency of P-N junction solar cells.Journal of Applied Physics, 1961, 32(3): 510-519. [4] RUHLE S.Tabulated values of the Shockley-Queisser limit for single junction solar cells.Solar Energy, 2016, 130: 139-147. [5] ALMORA O, BARAN D, BAZAN G C,et al. Device performance of emerging photovoltaic materials (version 1). Advanced Energy Materials, 2021, 11(11): 2002774. [6] JI C, LIU D, ZHANG C,et al. Ultrathin-metal-film-based transparent electrodes with relative transmittance surpassing 100%. Nature Communications, 2020, 11: 3367. [7] WANG X, WANG R R, SHI L J,et al. Synthesis, optimization of Cu nanowires and application of its transparent electrodes. Journal of Inorganic Materials, 2019, 34(1): 49-59. [8] LI XIN, XI L L, YANG J.First principles high-throughput research on thermoelectric materials: a review.Journal of Inorganic Materials, 2019, 34(3): 236-246. [9] LI Y, LIN J, CHE X,et al. High efficiency near-infrared and semitransparent non-fullerene acceptor organic photovoltaic cells. Journal of the American Chemical Society, 2017, 139(47): 17114-17119. [10] LI Y, JI C, QU Y,et al. Enhanced light utilization in semitransparent organic photovoltaics using an optical outcoupling architecture. Advanced Materials, 2019, 31(40): 1903173. [11] LI Y, GUO X, PENG Z,et al. Color-neutral, semitransparent organic photovoltaics for power window applications. Proceedings of the National Academy of Sciences of the United States of America, 2020, 117(35): 21147-21154. [12] MYONG S Y, JEON S W.Design of esthetic color for thin-film silicon semi-transparent photovoltaic modules.Solar Energy Materials & Solar Cells, 2015, 143: 442-449. [13] KWON H C, KIM A, LEE H,et al. Parallelized nanopillar perovskites for semitransparent solar cells using an anodized aluminum oxide scaffold. Advanced Energy Materials, 2016, 6: 1601055. [14] WHEELER L M, WHEELER V M.Detailed balance analysis of photovoltaic windows.ACS Energy Letters, 2019, 4: 2130-2136. [15] LUNT R R.Theoretical limits for visibly transparent photovoltaics.Applied Physics Letters, 2012, 101: 043902. [16] HALME J, MAKINEN P.Theoretical efficiency limits of ideal coloured opaque photovoltaics.Energy & Environmental Science, 2019, 12: 1274-1285. [17] LIU D, WANG L, CUI Q,et al. Planar metasurfaces enable high-efficiency colored perovskite solar cells. Advanced Science, 2018, 5: 1800836. [18] DENG K, LI L.Optical design in perovskite solar cells.Small Methods, 2020, 4(6): 1900150. [19] CHANG S, CHENG P, LI G,et al. Transparent polymer photovoltaics for solar energy harvesting and beyond. Joule, 2018, 2: 1039-1054. [20] Air Mass 1.5 Spectra, American Society for Testing and Materials. [2021-05-01] Mass 1.5 Spectra, American Society for Testing and Materials. [2021-05-01] .5 Spectra, American Society for Testing and Materials. [2021-05-01] Mass 1.5 Spectra, American Society for Testing and Materials. [2021-05-01] http://rredc.nrel.gov/solar/spectra/am1.5/. [21] RAU U.Reciprocity relation between photovoltaic quantum efficiency and electroluminescent emission of solar cells.Physical Review B, 2007, 76(8): 085303. [22] SCHUBER E F. Light-Emitting Diodes.New York: Cambridge University Press, 2006: 283. [23] YANG Z, JI C, CUI Q,et al. High-purity hybrid structural colors by enhancing optical absorption of organic dyes in resonant cavity. Advanced Optical Materials, 2020, 8(12): 2000317. [24] YANG Z, JI C, LIU D,et al. Enhancing the purity of reflective structural colors with ultrathin bilayer media as effective ideal absorbers. Advanced Optical Materials, 2019, 7(21): 1900739. |