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W4387128514 abstract "Silicon phthalocyanines (R2–SiPcs) are an emerging class of high-performance n-type semiconductors used in organic electronics, which historically have suffered from operational instability in air. We report the synthesis of R2–SiPcs with varying degrees of peripheral fluorination, R2–FxSiPcs (x = 0, 4, or 16), and different axial phenoxy groups leading to 12 derivatives with 0 to 26 fluorine atoms in the molecular structure and going from non-operational devices in ambient conditions to fully air-stable operation in organic thin-film transistors (OTFTs). Ultraviolet photoelectron spectroscopy revealed that the peripheral fluorination of R2–FxSiPcs caused a decrease of up to 0.9 eV in the energy level of the lowest unoccupied molecular orbital (LUMO). This reduction in the LUMO energy level coincides with a decrease in the threshold voltage (VT) of the resulting OTFT. All compounds containing 16 peripheral fluorine atoms and one of four compounds containing four peripheral fluorine atoms in OTFTs yielded air-stable electron transport in ambient conditions at a humidity of 40%. Power spectral density functions (PSDF) from atomic force microscopy imaging also demonstrated that for similar morphologies across a series of compounds with the same axial group, a larger domain size and a smaller density of grain boundaries in the film led to a higher overall electron mobility (μe)." @default.
W4387128514 created "2023-09-29" @default.
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W4387128514 date "2023-09-28" @default.
W4387128514 modified "2023-10-18" @default.
W4387128514 title "Peripherally Fluorinated Silicon Phthalocyanines: How Many Fluorine Groups Are Necessary for Air-Stable Electron Transport in Organic Thin-Film Transistors?" @default.
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W4387128514 doi "https://doi.org/10.1021/acs.chemmater.3c01342" @default.
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