Highly improved charge injection in pentacene-based organic transistors by chemically doping with copper iodide interlayer

Chen, Xiong; Wei, Xianbiao; Zhang, Hao; Wang, Jun

doi:10.1002/pssa.201700064

Cited by 9 publications

(3 citation statements)

References 38 publications

(37 reference statements)

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“…Grain sizes of 69 ± 35 nm were observed agreeing well with literature describing the formation of smooth layers at room temperature ( Figure 1d). 47 At 200°C, CuI is known to form discontinuous layers due to an island growth 32 and therefore to ensure full coverage of the substrate, the film was initially grown to a thickness of 50 nm. Although larger gain sizes were observed, pinholes were visible in the film indicating incomplete layer growth (Figure 1e).…”

Section: Single Layersmentioning

confidence: 99%

Comparison of organic and inorganic layers for structural templating of pentacene thin films

2020

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Section: Single Layersmentioning

confidence: 99%

Comparison of organic and inorganic layers for structural templating of pentacene thin films

2020

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“…Finally, a 40 nm thick Cu source/drain (S/D) electrode was thermally evaporated on the pentacene layer with a shadow mask, which finally defined a bottomgate and topcontact OTFT device with channel width/length of 750 µm/50 µm. The main consideration for us to choose Cu as the S/D electrodes is that it can provide a reduced contact resistance between the S/D electrode and pentacene and enhanced carrier mobility in the channel when compared with that of Au electrodes [28,29].…”

Section: Fabrication Of Flexible Pentacene Otftsmentioning

confidence: 99%

Solution processable high quality ZrO₂dielectric films for low operation voltage and flexible organic thin film transistor applications

Gong¹,

Zhao²,

He³

et al. 2018

J. Phys. D: Appl. Phys.

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Low temperature fabrication of high quality dielectric films for high performance flexible electronics is still a big challenge. In this work, we realized low temperature fabrication of high quality amorphous ZrO2 dielectric films via a low-cost solution process. The microstructure and electrical properties, as well as the electronic structures of solution processed ZrO2 films have been investigated systematically. The ZrO2 films with 160 °C annealed showed a low leakage current (3.6 × 10−5 A cm−2 at −3 V) and a high band gap (5.4 eV). The flexible organic thin film transistor (OTFT) made by using the solution-processed amorphous ZrO2 dielectric shows a low operation voltage of 4 V and a high drain current on/off ratio of 2.4 × 105. The frequency response of the ZrO2-OTFT device is up to 51.8 KHz under a low gate voltage of −3 V. Our work demonstrated that a solution processable ZrO2 film is promising for applications in future low power consumption and wearable flexible electronic devices.

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“…As we know, the surface properties and the dielectric constant (k) of gate insulators play a dominant role in threshold voltage. The surface properties have a strong influence on the trap-state density related to the threshold voltage [5,6]. The k value of a gate insulator directly determines the capacitance value, which leads to the change of threshold voltage [7].…”

Section: Introductionmentioning

confidence: 99%

Facile Synthesis of Solution-Processed Silica and Polyvinyl Phenol Hybrid Dielectric for Flexible Organic Transistors

2020

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A high-quality dielectric layer is essential for organic thin-film transistors (OTFTs) operated at a low-power consumption level. In this study, a facile improved technique for the synthesis of solution-processed silica is proposed. By optimizing the synthesis and processing technique fewer pores were found on the surface of the film, particularly no large holes were observable after improving the annealing process, and the improved solution–gelation (sol–gel) SiOx dielectric achieved a higher breakdown strength (1.6 MV/cm) and lower leakage current density (10−8 A/cm2 at 1.5 MV/cm). Consequently, a pentacene based OTFT with a high field effect mobility (~1.8 cm2/Vs), a low threshold voltage (−1.7 V), a steeper subthreshold slope (~0.4 V/dec) and a relatively high on/off ratio (~105) was fabricated by applying a hybrid gate insulator which consisted of improved sol–gel SiOx and polyvinyl phenol (PVP). This could be ascribed to both the high k of SiOx and the smoother, hydrophobic dielectric surface with low trap density, which was proved by atomic force microscopy (AFM) and a water contact angle test, respectively. Additionally, we systematically studied and evaluated the stability of devices in the compressed state. The devices based on dielectric fabricated by conventional sol–gel processes were more susceptible to the curvature. While the improved device presented an excellent mechanic strength, it could still function at the higher bending compression without a significant degradation in performance. Thus, this solution-process technology provides an effective approach to fabricate high-quality dielectric and offers great potential for low-cost, fast and portable organic electronic applications.

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Highly improved charge injection in pentacene-based organic transistors by chemically doping with copper iodide interlayer

Cited by 9 publications

References 38 publications

Comparison of organic and inorganic layers for structural templating of pentacene thin films

Comparison of organic and inorganic layers for structural templating of pentacene thin films

Solution processable high quality ZrO₂dielectric films for low operation voltage and flexible organic thin film transistor applications

Facile Synthesis of Solution-Processed Silica and Polyvinyl Phenol Hybrid Dielectric for Flexible Organic Transistors

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Highly improved charge injection in pentacene-based organic transistors by chemically doping with copper iodide interlayer

Cited by 9 publications

References 38 publications

Comparison of organic and inorganic layers for structural templating of pentacene thin films

Comparison of organic and inorganic layers for structural templating of pentacene thin films

Solution processable high quality ZrO2dielectric films for low operation voltage and flexible organic thin film transistor applications

Facile Synthesis of Solution-Processed Silica and Polyvinyl Phenol Hybrid Dielectric for Flexible Organic Transistors

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Solution processable high quality ZrO₂dielectric films for low operation voltage and flexible organic thin film transistor applications