Oana D. Jurchescu scite author profile

We have obtained a hole mobility for the organic conductor pentacene of µ =35 cm 2 /V·s at room temperature increasing to µ = 58 cm 2 /V·s at 225 K. These high mobilities result from a purification process in which 6,13-pentacenequinone was removed by vacuum sublimation. The number of traps is reduced by two orders of magnitude compared with conventional methods. The temperature dependence of the mobility is consistent with the band model for electronic transport.PACS numbers: 72.80.Le, 81.10. Bk. The infrared experiments were complemented by mass spectrometry analysis, which confirmed that the C = O vibration originates from a pentacenequinone molecule.We have used vacuum sublimation under a temperature gradient as purification method. This technique is effective for separation of impurities from a solid if these 1

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Charge carrier traps in organic semiconductors: a review on the underlying physics and impact on electronic devices

Haneef

2020

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Mobility overestimation due to gated contacts in organic field-effect transistors

et al. 2016

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Parameters used to describe the electrical properties of organic field-effect transistors, such as mobility and threshold voltage, are commonly extracted from measured current–voltage characteristics and interpreted by using the classical metal oxide–semiconductor field-effect transistor model. However, in recent reports of devices with ultra-high mobility (>40 cm2 V−1 s−1), the device characteristics deviate from this idealized model and show an abrupt turn-on in the drain current when measured as a function of gate voltage. In order to investigate this phenomenon, here we report on single crystal rubrene transistors intentionally fabricated to exhibit an abrupt turn-on. We disentangle the channel properties from the contact resistance by using impedance spectroscopy and show that the current in such devices is governed by a gate bias dependence of the contact resistance. As a result, extracted mobility values from d.c. current–voltage characterization are overestimated by one order of magnitude or more.

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Contact-induced crystallinity for high-performance soluble acene-based transistors and circuits

et al. 2008

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The use of organic materials presents a tremendous opportunity to significantly impact the functionality and pervasiveness of large-area electronics. Commercialization of this technology requires reduction in manufacturing costs by exploiting inexpensive low-temperature deposition and patterning techniques, which typically lead to lower device performance. We report a low-cost approach to control the microstructure of solution-cast acene-based organic thin films through modification of interfacial chemistry. Chemically and selectively tailoring the source/drain contact interface is a novel route to initiating the crystallization of soluble organic semiconductors, leading to the growth on opposing contacts of crystalline films that extend into the transistor channel. This selective crystallization enables us to fabricate high-performance organic thin-film transistors and circuits, and to deterministically study the influence of the microstructure on the device characteristics. By connecting device fabrication to molecular design, we demonstrate that rapid film processing under ambient room conditions and high performance are not mutually exclusive.

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Oana D. Jurchescu

Effect of impurities on the mobility of single crystal pentacene

Charge carrier traps in organic semiconductors: a review on the underlying physics and impact on electronic devices

Mobility overestimation due to gated contacts in organic field-effect transistors

Contact-induced crystallinity for high-performance soluble acene-based transistors and circuits

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