Here we show that the blending of structurally similar oligothiophene molecules is an effective approach to improvefield-effect mobility and I(on)/I(off) as compared to single components based transistors. The effect of addition of each component isstudied extensively using a wide array of methods such as X-Ray diffraction, ToF-SIMS, Ambient UPS correlated with the electrical characterization.
Improving the electrical performance of solution processed oligothiophene TFTs via structural similarity blending
ZAPPALA', GABRIELLA;LICCIARDELLO, Antonino;
2017-01-01
Abstract
Here we show that the blending of structurally similar oligothiophene molecules is an effective approach to improvefield-effect mobility and I(on)/I(off) as compared to single components based transistors. The effect of addition of each component isstudied extensively using a wide array of methods such as X-Ray diffraction, ToF-SIMS, Ambient UPS correlated with the electrical characterization.File in questo prodotto:
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Improving the electrical performance of solution processed oligothiophene thin-film transistors.pdf
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