Abstract
We report the crystal structure and hole-transport mechanism in spiro-OMeTAD [2,2′,7,7′-tetrakis(N,N-di-p-methoxyphenyl-amine)9,9′-spirobifluorene], the dominant hole-transporting material in perovskite and solid-state dye-sensitized solar cells. Despite spiro-OMeTAD’s paramount role in such devices, its crystal structure was unknown because of highly disordered solution-processed films; the hole-transport pathways remained ill-defined and the charge carrier mobilities were low, posing a major bottleneck for advancing cell efficiencies. We devised an antisolvent crystallization strategy to grow single crystals of spiro-OMeTAD, which allowed us to experimentally elucidate its molecular packing and transport properties. Electronic structure calculations enabled us to map spiro-OMeTAD’s intermolecular charge-hopping pathways. Promisingly, single-crystal mobilities were found to exceed their thin-film counterparts by three orders of magnitude. Our findings underscore mesoscale ordering as a key strategy to achieving breakthroughs in hole-transport material engineering of solar cells.
Original language | English (US) |
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Pages (from-to) | e1501491 |
Journal | Science advances |
Volume | 2 |
Issue number | 4 |
DOIs | |
State | Published - Apr 15 2016 |
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CCDC 1475944: Experimental Crystal Structure Determination : N,N,N',N',N'',N'',N''',N'''-octakis(4-Methoxyphenyl)-9,9'-spirobi[fluorene]-2,2',7,7'-tetramine
Shi, D. (Creator), Qin, X. (Creator), Li, Y. (Creator), He, Y. (Creator), Zhong, C. (Creator), Pan, J. (Creator), Dong, H. (Creator), Xu, W. (Creator), Li, T. (Creator), Hu, W. (Creator), Brédas, J.-L. (Creator), Bakr, O. (Creator), Qin, X. (Creator), Li, Y. (Creator), He, Y. (Creator), Zhong, C. (Creator), Pan, J. (Creator), Dong, H. (Creator), Xu, W. (Creator), Li, T. (Creator), Hu, W. (Creator) & Brédas, J.-L. (Creator), Cambridge Crystallographic Data Centre, Apr 25 2016
DOI: 10.5517/ccdc.csd.cc1ljv32, http://hdl.handle.net/10754/624579
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