Semiconductor Cocrystals Based on Boron: Generated Electrical Response with π-Rich Aromatic Molecules

Kamal K. Ray; Gonzalo Campillo-Alvarado; Hugo Morales-Rojas; Herbert Höpfl; Leonard R. Macgillivray; Alexei V. Tivanski

Journal Article

Semiconductor Cocrystals Based on Boron: Generated Electrical Response with π-Rich Aromatic Molecules

Crystal Growth and Design (2020) 20(1) 3-8

DOI: 10.1021/acs.cgd.9b00953

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Abstract

Cocrystallization of a nonconductive, boron-based host with aromatic guests generates conductive cocrystals. Carrier mobilities of the cocrystals with either pyrene or tetrathiafulvalene were measured using conducting probe atomic force microscopy. The incorporation of the π-electron-rich aromatic guests results in electrically conductive cocrystals. The cocrystal with tetrathiafulvalene as a guest shows an approximately seven times higher charge carrier mobility than the cocrystal with pyrene.

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Ray, K. K., Campillo-Alvarado, G., Morales-Rojas, H., Höpfl, H., Macgillivray, L. R., & Tivanski, A. V. (2020). Semiconductor Cocrystals Based on Boron: Generated Electrical Response with π-Rich Aromatic Molecules. Crystal Growth and Design, 20(1), 3–8. https://doi.org/10.1021/acs.cgd.9b00953

Semiconductor Cocrystals Based on Boron: Generated Electrical Response with π-Rich Aromatic Molecules

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