Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors

S. Van Mierloo; K. Vasseur; N. Van Den Brande; A.E. Boyukbayram; B. Ruttens; S.D. Rodriguez; E. Botek; V. Liégeois; J. D'Haen; P.J. Adriaensens; P. Heremans; B. Champagne; G. Van Assche; L. Lutsen; D.J. Vanderzande; W. Maes

doi:10.1002/cplu.201200132

Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors

S. Van Mierloo, K. Vasseur, N. Van Den Brande, A.E. Boyukbayram, B. Ruttens, S.D. Rodriguez, E. Botek, V. Liégeois, J. D'Haen, P.J. Adriaensens, P. Heremans, B. Champagne, G. Van Assche, L. Lutsen, D.J. Vanderzande, W. Maes

Unite de recherche en chimie physique, theorique et structurale

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Résumé

A series of 5′-aryl-substituted 2, 5-bis(3′-hexylthiophen- 2′-yl)thiazolo[5, 4-d]thiazole derivatives was synthesized and these expanded semiconductors were investigated as active materials for solution-processable organic field-effect transistors. Field-effect mobilities of up to 10 cm V s were obtained, representing the first reasonable FET behavior for highly soluble thiazolo[5, 4-d]thiazole-based small organic compounds suitable for printable electronics. Thermal and electrooptical material properties were studied by thermogravimetric analysis, differential scanning calorimetry, cyclic voltammetry, and UV/Vis spectroscopy. Trends in thermal and optical data were supported by (time-dependent) density functional theory calculations. Additional X-ray diffraction, atomic force microscopy, and scanning electron microscopy studies provided insight in the relationship between the molecular structures, film morphologies, and FET performances. The fibrillar microcrystalline structure observed for the best-performing thienyl-substituted material was linked to the high mobility.

langue originale	Anglais
Pages (de - à)	923-930
Nombre de pages	8
journal	ChemPlusChem
Volume	77
Numéro de publication	10
Les DOIs	https://doi.org/10.1002/cplu.201200132
Etat de la publication	Publié - 1 oct. 2012

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10.1002/cplu.201200132

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Van Mierloo, S., Vasseur, K., Van Den Brande, N., Boyukbayram, A. E., Ruttens, B., Rodriguez, S. D., Botek, E., Liégeois, V., D'Haen, J., Adriaensens, P. J., Heremans, P., Champagne, B., Van Assche, G., Lutsen, L., Vanderzande, D. J., & Maes, W. (2012). Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors. ChemPlusChem, 77(10), 923-930. https://doi.org/10.1002/cplu.201200132

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title = "Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors",

abstract = "A series of 5′-aryl-substituted 2, 5-bis(3′-hexylthiophen- 2′-yl)thiazolo[5, 4-d]thiazole derivatives was synthesized and these expanded semiconductors were investigated as active materials for solution-processable organic field-effect transistors. Field-effect mobilities of up to 10 cm V s were obtained, representing the first reasonable FET behavior for highly soluble thiazolo[5, 4-d]thiazole-based small organic compounds suitable for printable electronics. Thermal and electrooptical material properties were studied by thermogravimetric analysis, differential scanning calorimetry, cyclic voltammetry, and UV/Vis spectroscopy. Trends in thermal and optical data were supported by (time-dependent) density functional theory calculations. Additional X-ray diffraction, atomic force microscopy, and scanning electron microscopy studies provided insight in the relationship between the molecular structures, film morphologies, and FET performances. The fibrillar microcrystalline structure observed for the best-performing thienyl-substituted material was linked to the high mobility.",

author = "{Van Mierloo}, S. and K. Vasseur and {Van Den Brande}, N. and A.E. Boyukbayram and B. Ruttens and S.D. Rodriguez and E. Botek and V. Li{\'e}geois and J. D'Haen and P.J. Adriaensens and P. Heremans and B. Champagne and {Van Assche}, G. and L. Lutsen and D.J. Vanderzande and W. Maes",

year = "2012",

month = oct,

day = "1",

doi = "10.1002/cplu.201200132",

language = "English",

volume = "77",

pages = "923--930",

journal = "ChemPlusChem",

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Van Mierloo, S, Vasseur, K, Van Den Brande, N, Boyukbayram, AE, Ruttens, B, Rodriguez, SD, Botek, E, Liégeois, V, D'Haen, J, Adriaensens, PJ, Heremans, P, Champagne, B, Van Assche, G, Lutsen, L, Vanderzande, DJ & Maes, W 2012, 'Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors', ChemPlusChem, VOL. 77, Numéro 10, p. 923-930. https://doi.org/10.1002/cplu.201200132

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T1 - Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors

AU - Van Mierloo, S.

AU - Vasseur, K.

AU - Van Den Brande, N.

AU - Boyukbayram, A.E.

AU - Ruttens, B.

AU - Rodriguez, S.D.

AU - Botek, E.

AU - Liégeois, V.

AU - D'Haen, J.

AU - Adriaensens, P.J.

AU - Heremans, P.

AU - Champagne, B.

AU - Van Assche, G.

AU - Lutsen, L.

AU - Vanderzande, D.J.

AU - Maes, W.

PY - 2012/10/1

Y1 - 2012/10/1

N2 - A series of 5′-aryl-substituted 2, 5-bis(3′-hexylthiophen- 2′-yl)thiazolo[5, 4-d]thiazole derivatives was synthesized and these expanded semiconductors were investigated as active materials for solution-processable organic field-effect transistors. Field-effect mobilities of up to 10 cm V s were obtained, representing the first reasonable FET behavior for highly soluble thiazolo[5, 4-d]thiazole-based small organic compounds suitable for printable electronics. Thermal and electrooptical material properties were studied by thermogravimetric analysis, differential scanning calorimetry, cyclic voltammetry, and UV/Vis spectroscopy. Trends in thermal and optical data were supported by (time-dependent) density functional theory calculations. Additional X-ray diffraction, atomic force microscopy, and scanning electron microscopy studies provided insight in the relationship between the molecular structures, film morphologies, and FET performances. The fibrillar microcrystalline structure observed for the best-performing thienyl-substituted material was linked to the high mobility.

AB - A series of 5′-aryl-substituted 2, 5-bis(3′-hexylthiophen- 2′-yl)thiazolo[5, 4-d]thiazole derivatives was synthesized and these expanded semiconductors were investigated as active materials for solution-processable organic field-effect transistors. Field-effect mobilities of up to 10 cm V s were obtained, representing the first reasonable FET behavior for highly soluble thiazolo[5, 4-d]thiazole-based small organic compounds suitable for printable electronics. Thermal and electrooptical material properties were studied by thermogravimetric analysis, differential scanning calorimetry, cyclic voltammetry, and UV/Vis spectroscopy. Trends in thermal and optical data were supported by (time-dependent) density functional theory calculations. Additional X-ray diffraction, atomic force microscopy, and scanning electron microscopy studies provided insight in the relationship between the molecular structures, film morphologies, and FET performances. The fibrillar microcrystalline structure observed for the best-performing thienyl-substituted material was linked to the high mobility.

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Functionalized dithienylthiazolo[5, 4-d]thiazoles for solution-processable organic field-effect transistors

Résumé

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Autres fichiers et liens

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PAI n°P7/05 - FS2: Systèmes supramoléculaires fonctionnels (PAI P7/05)

consortium des équipements de calcul intensif

Systèmes supramoléculaires fonctionnels (PAI P6/27)

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Plateforme Technologique Calcul Intensif

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