Tetramethylpentacene: Remarkable Absence of Steric Effect on Field Effect Mobility

Meng, Hong; Bendikov, Michael; Mitchell, Gregory; Helgeson, Roger C.; Wudl, Fred; Bao, Zhenan; Siegrist, T.; Kloc, Christian; Chen, Cheng Hsuan

doi:10.1002/adma.200304935

Cited by 216 publications

(169 citation statements)

References 30 publications

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“…2,3,9,10-Tetramethylpentacen (49) [277] kristallisiert in der für Acene typischen Fischgräten-Anordnung, und nach dem Aufdampfen liefert es Transistoren mit Lochbeweglichkeiten bis 0.3 cm 2 V À1 s À1 und einem An-AusStromverhältnis von 6 10 3 .…”

Section: Pentacenhaltige Solarzellenunclassified

Höhere Acene: vielseitige organische Halbleiter

Anthony

2007

Angewandte Chemie

485

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Acene werden wegen ihrer einzigartigen elektronischen Eigenschaften, die auf der Topologie ihrer π‐Systeme beruhen, seit langem untersucht. Berichte über die bemerkenswerten Halbleitereigenschaften höherer Homologe haben in letzter Zeit zu verstärkten Forschungsaktivitäten geführt. Es wurden neue Verfahren zur Synthese, Funktionalisierung und Reinigung sowie zur Herstellung organoelektronischer Bauteile entwickelt. Durch Untersuchungen an hochreinen Acen‐Einkristallen wurden die charakteristischen elektronischen Eigenschaften und Kenngrößen für die Beurteilung von Dünnschichtbauteilen ermittelt. Um die Verarbeitbarkeit in Lösung zu verbessern, wurden neuartige Funktionalisierungsmethoden entwickelt. Die für elektronische Anwendungen erwünschten Eigenschaften nichtfunktionalisierter Acene bleiben bei der Funktionalisierung erhalten. Mit diesen Verfahren wurden kürzlich Derivate höherer Acene als Pentacen, die zuvor kaum zugänglich waren, erhalten, sodass Struktur‐Eigenschafts‐Beziehungen untersucht werden konnten.

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Section: Pentacenhaltige Solarzellenunclassified

Höhere Acene: vielseitige organische Halbleiter

Anthony

2007

Angewandte Chemie

485

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“…[1][2][3][4][5][6][7] In particular, organic compounds that possess a p-conjugated system, such as pentacene and oligothiophene, have attracted much attention [8][9][10][11][12][13] because of their mechanical properties, low cost and variety of photonic properties obtained by chemical modification. Therefore, significant progress has been made in the study of p-conjugated organic compounds, which might be competitive with amorphous silicon in electronic and photonic devices.…”

Section: Introductionmentioning

confidence: 99%

Syntheses and properties of copolymers containing indolocarbazole moiety in the side chain

Akimoto

Kawano

Iwasawa

et al. 2011

Polym J

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Novel copolymers containing the indolo [3,2-b]carbazole (INC) moiety were synthesized, and the effects of the INC content on their physical properties were investigated. The homopolymer of the INC-containing monomer, 1-octyl-7-(4-vinylbenzyl) indolo [3,2-b]carbazole and copolymers with styrene were prepared by radical polymerization. Four kinds of copolymers with different compositions were obtained. The glass transition temperatures (Tgs) were observed in the range of 101-112 1C, and the decomposition temperatures were nearly 400 1C. The photonic properties of the copolymers were also evaluated in solution in tetrahydrofuran and for spin-coated films on a fused silica substrate. In the ultraviolet-visible absorption spectra, maximum absorption peaks were observed at 340-345 nm in both the solutions and the films. In the case of the solutions, the photoluminescence intensities of the copolymers increased with increasing INC monomer units in the copolymer. On the contrary, the photoluminescence intensities of the copolymer films decreased with increasing INC content in the copolymer, which is likely due to the concentration quenching caused by the condensation of intermolecular interactions derived from INC components. The copolymer with a low content of the INC moiety exhibited high emission and good film-forming ability.

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“…3 These organic crystals were grown from the vapor phase in long and complex experiments. To progress in this field toward device applications, it is very important to search for new molecules that are able to act as organic semiconductors 4 and also to develop easy methods to grow single crystals or films. In this communication, we report on the clear observation of field effect hole mobility in single crystals of the organic semiconductor dithiophene-tetrathiafulvalene (DT-TTF, Figure 1a) grown by drop casting, a very simple method.…”

mentioning

confidence: 99%

High Mobility of Dithiophene-Tetrathiafulvalene Single-Crystal Organic Field Effect Transistors

et al. 2004

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The processing characteristics of organic semiconductors make them potentially useful for electronic applications where low-cost, large area coverage, and structural flexibility are required. 1 Charge carrier mobility is a measure of the quality of organic semiconductors and is a primary factor that determines the performance of organic field effect transistors (OFETs). The highest mobilities are found in single crystals due to molecular ordering that permits good overlapping of the π-π orbitals. A mobility of 1.5 cm 2 /Vs was reported for pentacene, 2 and recently a mobility of 8 cm 2 /Vs was reported for rubrene. 3 These organic crystals were grown from the vapor phase in long and complex experiments. To progress in this field toward device applications, it is very important to search for new molecules that are able to act as organic semiconductors 4 and also to develop easy methods to grow single crystals or films. In this communication, we report on the clear observation of field effect hole mobility in single crystals of the organic semiconductor dithiophene-tetrathiafulvalene (DT-TTF, Figure 1a) grown by drop casting, a very simple method. The maximum mobility observed in these crystals was 1.4 cm 2 /Vs.Tetrathiafulvalene (TTF) and its derivatives are successfully used as building blocks for charge-transfer salts, giving rise to a multitude of organic conductors and superconductors. These conducting salts are prepared mainly as single crystals but also as thin films of nanocrystals supported on dielectric polymers. [5][6][7] The driving force in the crystallization of the salts is the π-π stacking, which permits, together with the S‚‚‚S interactions, an intermolecular electronic transfer responsible for their transport properties. The transport properties of a few single crystals of neutral TTF derivatives have been measured, showing semiconductor character with a roomtemperature conductivity on the order of 10 -5 S/cm. 8-10 Additionally, organic thin films of TTF derivatives have been grown by vacuum deposition techniques, but only their morphology and nanomechanical properties have been studied. 11 However, TTF derivatives have never been used for the preparation of OFETs despite the fact that they are soluble in various solvents, easily chemically modified, and good electron donors.DT-TTF is a particularly promising molecule because it is rigid and completely conjugated, having a low conformational freedom that favors stronger intermolecular interactions and, thus, higher carrier mobilities. Cyclic voltammetry measurements of DT-TTF show two separate reversible one-electron oxidations with E 1/2 1 and E 1/2 2 of 0.78 and 0.96 V, respectively (in DMF/0.1 M TBAPF 6 vs SCE). X-ray studies reveal that the DT-TTF molecules stack uniformly along the b axis in a herringbone pattern ( Figure 1a). 12 Moreover, it is seen that the sulfur atoms also promote interactions between the different DT-TTF stacks within the layer which can lead to electronic dimensionality enhancing 5 (d(S‚‚‚S) ) 3.55 and 3.61 Å). This cr...

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Tetramethylpentacene: Remarkable Absence of Steric Effect on Field Effect Mobility

Cited by 216 publications

References 30 publications

Höhere Acene: vielseitige organische Halbleiter

Höhere Acene: vielseitige organische Halbleiter

Syntheses and properties of copolymers containing indolocarbazole moiety in the side chain

High Mobility of Dithiophene-Tetrathiafulvalene Single-Crystal Organic Field Effect Transistors

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