Electrical Characteristics Enhancement of Conjugated Polymer Thin Film Transistor by Using Dipping Method

A novel film preparation method utilizing polymer suspension, entitled adsorbing deposition in suspensions (ADS), has been proposed. The poly(3-hexylthiophene) (P3HT) toluene solution forms P3HT nanofibrils dispersed suspension by aging. P3HT nanofibrils are highly crystallized with sharp vibronic absorption spectra. By the ADS method, only P3HT nanofibrils in suspension can be deposited on the substrate surface without any disordered fraction from the dissolved P3HT in suspension. Formed ADS film contains only the nanostructured conjugated polymer. Fabricated polymer thin-film transistor (TFT) utilizing ADS P3HT film shows good TFT performances with low off current, narrow subthreshold swing and large on/off current ratio.

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Effect of High-Speed Blade Coating on Electrical Characteristics in Polymer Based Transistors

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2020.17615 ◽

2020 ◽

Vol 20 (9) ◽

pp. 5486-5490

Author(s):

Jun-Ik Park ◽

Hyun-Seok Jeong ◽

Premkumar Vincent ◽

Jihwan Park ◽

Do-Kyung Kim ◽

...

Keyword(s):

Thin Film ◽

Surface Roughness ◽

Conjugated Polymer ◽

Thin Film Transistors ◽

Field Effect ◽

High Speed ◽

Electrical Characteristics ◽

Field Effect Mobility ◽

Polymer Thin Film ◽

Blade Coating

We explore the effect of high-speed blade coating on electrical characteristics of conjugated polymer-based thin-film transistors (TFTs). As the blade-coating speed increased, the thickness of the polymer thin-film was naturally increased while the surface roughness was found to be unchanged. Polymer TFTs show two remarkable tendencies on the magnitude of field-effect mobility with increasing blade-coating speed. As the blade-coating speed increased up to 2 mm/s, the fieldeffect mobility increased to 4.72 cm2V−1s−1. However, when the coating speed reached 6 mm/s beyond 2 mm/s, the field-effect mobility rather decreased to 3.18 cm2V−1s−1. The threshold voltage was positively shifted from 2.09 to 8.29 V with respect to increase in blade-coating speed.

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Illumination Effect on Electrical Characteristics of Poly(3-hexylthiophene): TIPS-Pentacene Blend Thin-Film Transistor

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2021.19222 ◽

2021 ◽

Vol 21 (7) ◽

pp. 3829-3834

Author(s):

Hyunji Shin ◽

Jaehoon Park ◽

Jong Sun Choi

Keyword(s):

Thin Film ◽

Organic Semiconductors ◽

Incident Light ◽

Thin Film Transistor ◽

Electrical Characteristics ◽

Light Spectrum ◽

Absorption Properties ◽

Threshold Voltages ◽

Component Material ◽

Color Filters

Organic phototransistors capable of absorbing in the visible light spectrum without color filters are the best alternatives to conventional inorganic phototransistors. In this study, the effect of illumination on the electrical characteristics of a solution-processed poly(3-hexylthiophene): 6,13-bis(triisopropylsilylethynyl) pentacene-blend thin-film transistor (TFT) was investigated. The wavelengths of the irradiated light were determined from the absorbance spectrum of the blended film and changes in the transistor’s electrical characteristics were explained in relation to the electrical and light absorption properties of each component material. The photosensitivity and absorbing properties of the blended TFT were enhanced at 515 and 450 nm and exhibited positively shifted threshold voltages under incident light. The results indicated that the photo-generated exci-ton pair characteristics matched the absorbance properties of the blended material and that the absorption and photocurrent characteristics of the respective components could be combined. This process for the heterogeneous blending of organic semiconductors has the potential to improve phototransistor performance and contribute to the development of broadband absorbing phototransistors.

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Fast Development of Self‐Assembled, Highly Oriented Polymer Thin Film and Observation of Dual Sensing Behavior of Thin Film Transistor for Ammonia Vapor

Macromolecular Chemistry and Physics ◽

10.1002/macp.201900010 ◽

2019 ◽

Vol 220 (11) ◽

pp. 1900010

Author(s):

Praveen Kumar Sahu ◽

Lalit Chandra ◽

Rajiv K. Pandey ◽

Niraj Singh Mehta ◽

R. Dwivedi ◽

...

Keyword(s):

Thin Film ◽

Thin Film Transistor ◽

Ammonia Vapor ◽

Oriented Polymer ◽

Polymer Thin Film ◽

Fast Development ◽

Self Assembled ◽

Dual Sensing

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Electrical and Structural Characteristics of Excimer Laser-Crystallized Polycrystalline Si1−xGex Thin-Film Transistors

Materials ◽

10.3390/ma12111739 ◽

2019 ◽

Vol 12 (11) ◽

pp. 1739 ◽

Cited By ~ 2

Author(s):

Kyungsoo Jang ◽

Youngkuk Kim ◽

Joonghyun Park ◽

Junsin Yi

Keyword(s):

Thin Film ◽

Grain Size ◽

Energy Density ◽

Excimer Laser ◽

Density Of States ◽

Silicon Germanium ◽

Structural Characteristics ◽

Thin Film Transistor ◽

Electrical Characteristics ◽

Starting Point

We investigated the characteristics of excimer laser-annealed polycrystalline silicon–germanium (poly-Si1−xGex) thin film and thin-film transistor (TFT). The Ge concentration was increased from 0% to 12.3% using a SiH4 and GeH4 gas mixture, and a Si1−xGex thin film was crystallized using different excimer laser densities. We found that the optimum energy density to obtain maximum grain size depends on the Ge content in the poly-Si1−xGex thin film; we also confirmed that the grain size of the poly-Si1−xGex thin film is more sensitive to energy density than the poly-Si thin film. The maximum grain size of the poly-Si1−xGex film was 387.3 nm for a Ge content of 5.1% at the energy density of 420 mJ/cm2. Poly-Si1−xGex TFT with different Ge concentrations was fabricated, and their structural characteristics were analyzed using Raman spectroscopy and atomic force microscopy. The results showed that, as the Ge concentration increased, the electrical characteristics, such as on current and sub-threshold swing, were deteriorated. The electrical characteristics were simulated by varying the density of states in the poly-Si1−xGex. From this density of states (DOS), the defect state distribution connected with Ge concentration could be identified and used as the basic starting point for further analyses of the poly-Si1−xGex TFTs.

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