High-Performance OTFTs Using Surface-Modified Alumina Dielectrics

Kelley, Tommie W.; Boardman, Larry D.; Dunbar, Timothy D.; Muyres, Dawn V.; Pellerite, and Mark J.; Smith, Terry P.

doi:10.1021/jp034352e

Cited by 395 publications

(255 citation statements)

References 30 publications

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“…1,2 Among many organic semiconductors investigated, pentacene has been shown to possess the highest mobility in thin-film states, and the mobility is favorably compared with that of hydrogenated amorphous silicon. [3][4][5] Most materials with high mobility in thin-film state such as pentacene and thiophene derivatives are p-type semiconductor whose main carrier is hole. [6][7][8] However, there have been few reports on high performance n-type organic TFTs.…”

mentioning

confidence: 99%

High mobility n-type thin-film transistors based on N,N′-ditridecyl perylene diimide with thermal treatments

Tatemichi¹,

Ichikawa²,

Koyama³

et al. 2006

Applied Physics Letters

266

241

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The authors demonstrated that N , NЈ-ditridecyl-3,4,9,10-perylenetetracarboxylic diimide ͑PTCDI-C13͒ thin-film transistors ͑TFTs͒ exhibited high field-effect electron mobility of 2.1 cm 2 / V s by just annealing at an adequate temperature ͑140°C͒ after the TFT fabrications. While PTCDI-C13 formed c-axis oriented thin films, the thermal treatments improved crystallinity of the thin films as revealed by x-ray diffraction. The thermal treatment also affected thin-film morphologies; the morphologies changed from oval ball-like grains to flat and large tilelike grains, which had molecular height steps and whose size reached several micrometers.

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mentioning

confidence: 99%

High mobility n-type thin-film transistors based on N,N′-ditridecyl perylene diimide with thermal treatments

Tatemichi¹,

Ichikawa²,

Koyama³

et al. 2006

Applied Physics Letters

266

241

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“…The purity of the materials, the quality of source and drain contacts as well as the temperature have significant influence on the device performance [7] . Up to now, pentacene is the most ideal material for organic field-effect transistors, the highest performance of pentacene based OFET were reported by 3M cooperation with mobility up to 3.3 cm 2 /V s and on/off ratio exceeded 10 6 by depositing pentacene films on the alumina substrate with phosphonohexadecane SAM layers [8] , further investigations for the RFID tags were also taken based on this material [9] .…”

Section: Parameters Of Organic Field Effect Transistorsmentioning

confidence: 99%

Progresses in organic field-effect transistors and molecular electronics

et al. 2006

Front. Chem. China

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This is the accepted version of the paper.This version of the publication may differ from the final published version. Permanent AbstractIn the past years, organic semiconductors have been extensively investigated as electronic materials for organic field-effect transistors (OFETs). In this review, we briefly summarize the current status of organic field-effect transistors including materials design, device physics, molecular electronics and the applications of carbon nanotubes in molecular electronics. Future prospects and investigations required to improve the OFET performance are also involved.

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“…Over the past decade significant research has been done and the search for the new π-conjugated systems has been ongoing because of the important, rapidly growing number of applications in electronic devices such as semiconducting materials [2][3][4][5], organic solar cells [6], sensors [7], organic light-emitting diodes (OLEDs), organic field-effect transistors (OFETs), and flexible displays. π-conjugated materials have been extensively studied for their optoelectronic properties due to the offering of low-cost, large-area, and flexible electronic devices [8][9][10]. S-shaped dibenzo[c,l]chrysene derivatives are regarded as a hexacyclic polyaromatic hydrocarbon compound containing two cove-regions, and they have potential applications in biological systems and organic semiconductor materials [11,12].…”

Section: Introductionmentioning

confidence: 99%

Synthesis of Two Novels-Shaped Dibenzo[c,l] Chrysene Derivatives, Crystal Structure, and the Evaluation of their Photophysical Properties

et al. 2017

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Abstract:Two s-shaped polyaromatic dibenzo [c,l]chrysene derivatives have been synthesized by a two-step process, via. The Wittig reaction, followed by iodine, promoted photocyclization. These molecules have been characterized by 1 H NMR, FAB-MS, and elemental analysis. Further, the molecular structures of 4a and 4b have been confirmed by single crystal X-ray diffraction analysis. The protons located in the cove-regions of molecules 4a and 4b showed downfield shifts of the protons. Molecule 4a crystallized under the monoclinic system with space group C2/c, and the molecule 4b crystallized under the monoclinic system with space group P2 1 /n. Molecules 4a and 4b showed strong absorption maxima wavelengths at 310 nm and 324 nm, respectively. The molar extinctinction coefficients (ε) of the compounds 4a and 4b indicated that molecule 4b has a better ability to absorb UV light than molecule 4a. The emission spectra of the molecules 4a and 4b displayed peaks in the region 429-456 nm. The shape of the UV-Visible and Fluorescence spectra of the molecules 4a and 4b look almost identical. However, molecule 4b exhibited better fluorescence intensity than molecule 4a. This may be due to the difference in the substituents of molecules 4a and 4b.

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High-Performance OTFTs Using Surface-Modified Alumina Dielectrics

Cited by 395 publications

References 30 publications

High mobility n-type thin-film transistors based on N,N′-ditridecyl perylene diimide with thermal treatments

High mobility n-type thin-film transistors based on N,N′-ditridecyl perylene diimide with thermal treatments

Progresses in organic field-effect transistors and molecular electronics

Synthesis of Two Novels-Shaped Dibenzo[c,l] Chrysene Derivatives, Crystal Structure, and the Evaluation of their Photophysical Properties

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