Seite - 110 - in Photovoltaic Materials and Electronic Devices

53. Docampo, P.; Hanusch, F.; Stranks, S.D.; Döblinger, M.; Feckl, J.M.; Ehrensperger, M.; Minar, N.K.; Johnston, M.B.; Snaith, H.J.; Bein, T. Solution deposition-conversion for planarheterojunctionmixedhalideperovskitesolarcells.Adv. EnergyMater. 2014,4. 54. Jiang, M.; Wu, J.; Lan, F.; Tao, Q.; Gao, D.; Li, G. Enhancing the performance of planar organo-lead halide perovskite solar cells by using mixed halide source. J.Mater. Chem.A 2014,3, 963–967. 55. Dong,Q.;Yuan,Y.;Shao,Y.;Fang,Y.;Wang,Q.;Huang, J.Abnormalcrystalgrowthin CH3NH3PbI3-xClx using a multi-cycle solution coating process.Energ. Environ. Sci. 2015, 8, 2464–2470. 56. Liu, M.; Johnston, M.B.; Snaith, H.J. Efficient planar heterojunction perovskite solar cells byvapourdeposition.Nature2013,501, 395–398. 57. Ono,L.K.;Wang,S.;Kato,Y.;Raga,S.R.;Qi,Y.Fabricationofsemi-transparentperovskite films with centimeter-scale superior uniformity by the hybrid deposition method.Energ. Environ. Sci. 2014,7, 3989–3993. 58. Leyden, M.R.; Ono, L.K.; Raga, S.R.; Kato, Y.; Wang, S.; Qi, Y. High performance perovskite solar cells by hybrid chemical vapor deposition. J.Mater. Chem. A 2014, 2, 18742–18745. 59. Chen, C.-W.; Kang, H.-W.; Hsiao, S.-Y.; Yang, P.-F.; Chiang, K.-M.; Lin, H.-W. Efficient and uniform planar-type perovskite solar cells by simple sequential vacuum deposition. Adv.Mater. 2014,26, 6647–6652. 60. Poglitsch,A.;Weber,D.Dynamicdisorder inmethylammoniumtrihalogenoplumbates (ii)observedbymillimeter-wavespectroscopy. J.Chem.Phys. 1987,87, 6373–6378. 61. Stoumpos,C.C.;Malliakas,C.D.;Kanatzidis,M.G.Semiconductingtinandleadiodide perovskiteswithorganiccations: Phase transitions,highmobilities,andnear-infrared photoluminescentproperties. Inorg.Chem. 2013,52, 9019–9038. 62. Kawamura,Y.;Mashiyama,H.;Hasebe,K.Structuralstudyoncubic–tetragonaltransition ofCH3NH3PbI3. J.Phy. Soc. Jpn. 2002,71, 1694–1697. 63. Eperon, G.E.; Stranks, S.D.; Menelaou, C.; Johnston, M.B.; Herz, L.M.; Snaith, H.J. Formamidinium lead trihalide: A broadly tunable perovskite for efficient planar heterojunctionsolarcells.Energ. Environ. Sci. 2014,7, 982–988. 64. Chen, Z.; Li, H.; Tang, Y.; Huang, X.; Ho, D.; Lee, C.-S. Shape-controlled synthesis of organolead halide perovskite nanocrystals and their tunable optical absorption. Mater.Res. Express2014,1. 65. Baikie, T.; Fang, Y.N.; Kadro, J.M.; Schreyer, M.; Wei, F.X.; Mhaisalkar, S.G.; Graetzel, M.; White, T.J. Synthesis and crystal chemistry of the hybrid perovskite CH3NH3PbI3 for solid-statesensitisedsolarcell applications. J.Mater. Chem.A2013,1, 5628–5641. 66. Choi, J.J.; Yang, X.H.; Norman, Z.M.; Billinge, S.J.L.; Owen, J.S. Structure of methylammoniumleadiodidewithinmesoporous titaniumdioxide: Activematerial in high-performanceperovskitesolarcells.NanoLett. 2014,14, 127–133. 67. Zhou, Y.; Vasiliev, A.L.; Wu, W.; Yang, M.; Pang, S.; Zhu, K.; Padture, N.P. Crystal morphologiesoforganoleadtrihalideinmesoscopic/planarperovskitesolarcells. J.Phys. Chem. Lett. 2015,6, 2292–2297. 110