Michael Ray, Yves C. Martin
Proceedings of SPIE - The International Society for Optical Engineering
The organic-inorganic hybrid [CH3(CH2) 11NH3]SnI3 presents a lamellar structure with a Sn-I framework isotypic to that of MoO3. The SnI3- layer consists of edge and corner-sharing SnI6 octahedra in which one of the six Sn-I bonds is distinctly elongated (e.g., 3. 62 Å), indicating lone-pair stereoactivity for the Sn(II) atom. The overall electronic character remains comparable with that of the well-studied SnI42--based perovskite semiconductors, such as [CH 3(CH2)11NH3]2SnI 4, with a red-shifted and broadened exciton peak associated with the band gap, apparently due to the increased dimensionality of the Sn-I framework. The title compound offers, aside from the hybrid perovskites, a new type of solution-processable Sn-I network for potential applications in semiconductive devices.
Michael Ray, Yves C. Martin
Proceedings of SPIE - The International Society for Optical Engineering
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Surface Science
M.A. Lutz, R.M. Feenstra, et al.
Surface Science
Eloisa Bentivegna
Big Data 2022