Single-crystal organic field effect transistors with the hole mobility ∼8 cm2/V s

By photochemically cross linking the molecules of a reactive end group functionalized calamitic liquid crystal ͑bis͑heptylphenyl͒-bithiophene-oxetane͒ in the smectic mesophase, an insoluble rigid molecular network is formed which remains structurally unchanged on cooling to room temperature. The charge transport is investigated by the time-of-flight method and the resulting material shows long-range ͑ϳ10 m͒ ambipolar transport with nondispersive field independent hole mobility, hole = 0.016 cm 2 / V s and dispersive field dependent electron mobility, typically electron = 0.028 cm 2 /V s ͑both at 4 ϫ 10 4 V cm −1 and at 15°C͒. These desirable charge transport properties make this system a promising candidate for organic electronic applications, such as charge transport layers in organic light-emitting diodes and field effect transistors. © 2005 American Institute of Physics. ͓DOI: 10.1063/1.2117632͔Highly ordered thermotropic liquid crystalline mesophases display desirable high mobility charge transport; 1 these usually occur at elevated temperatures, and upon cooling, the formation of a polycrystalline solid has a detrimental effect on the charge transport 1 as the grain boundaries form charge carrier barriers. These barriers have the effect of reducing the carrier range and long-range mobility. It has been proposed that the problem of maintaining the enhanced transport properties present in the mesophase, at temperatures below the crystalline to mesophase transition, can be solved by the use of reactive mesogens ͑RMs͒. These are comprised of liquid crystal molecules with reactive end groups at the ends of the aliphatic chains. They form thermotropic mesophases and can be irreversibly photopolymerized in the presence of an appropriate photoinitiator, forming a stable network. It is expected that as the morphology is frozen-in, the transport properties will be stabilized. 2,3 The formation of an insoluble semiconducting film has the advantage of simplifying the fabrication of multilayer devices using sequential solution-based application methods to add further layers. 3 In addition, RMs can be patterned using optical masks.Initial time-of-flight ͑TOF͒ studies on a nonreactive calamitic liquid crystal bis͑alkylphenyl͒-bithiophene ͑PTTP͒ ͑Fig. 1͑a͔͒ in the smectic phase ͑SmG͒ showed ambipolar transport ͓see Fig. 2͒ with resulting hole mobility hole = 0.044 cm 2 V −1 s −1 and electron mobility electron = 0.07 cm 2 V −1 s −1 ͑these are both dispersive and field dependent, quoted here at 4 ϫ 10 4 V cm −1 ͒, indicating that this particular calamitic core was a promising candidate for the preparation of an oxetane containing reactive mesogen. Being a thermotropic liquid crystal at elevated temperatures, this behavior was, of course, lost at room temperature, yielding featureless trapping decays in the photocurrent transients.The RM used in the cross linking experiment ͑PTTP-oxetane͒ is shown in Fig. 1͑b͒. This was mixed with 0.5 wt % cationic initiator ͑Meerkat͒ and the liquid crystal cell ͑thickness, d =10 m͒ was fil...

mentioning

confidence: 99%

High mobility ambipolar charge transport in a cross-linked reactive mesogen at room temperature

Kreouzis

Baldwin

Shkunov

et al. 2005

“…Parylene was deposited on VO 2 surface at room temperature as described elsewhere. 19 The maximum strength of the electric field in devices with parylene insulator is comparable to that of the electric field strength in metal/SiO 2 /Si field effect structures whereas the leakage current does not exceed 1 pA. Finally, we used a 20 nm layer of Indium Tin Oxide (ITO) to fabricate a transparent gate essential for an infrared probe of the electrostatically induced effects in VO 2 .…”

mentioning

confidence: 99%

Electrostatic modification of infrared response in gated structures based on VO2

Qazilbash

Podzorov

et al. 2008

Self Cite

Abstract:We investigate the changes in the infrared response due to charge carriers introduced by electrostatic doping of the correlated insulator vanadium dioxide (VO 2 ) integrated in the architecture of the field effect transistor. Accumulation of holes at the VO 2 interface with the gate dielectric leads to an increase in infrared absorption. This phenomenon is observed only in the insulator-to-metal transition regime of VO 2 with coexisting metallic and insulating regions.We postulate that doped holes lead to the growth of the metallic islands thereby promoting percolation, an effect that persists upon removal of the applied gate voltage.

“…Thus, many interesting fundamental studies have been performed in recent years and new results emerge at a rapid pace. [5][6][7][8][9] A particularly important topic and "still a great challenge for theoreticians" 10 is the understanding of the charge-carrier mobilities in these crystals.…”

mentioning

confidence: 99%

Ab initio theory of charge-carrier conduction in ultrapure organic crystals

Hannewald

Bobbert

2004

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