Influence of the Amorphous Silicon Thickness on Top Gate Thin-Film   Transistor Electrical Performances

Martin, Sandrine; Chiang, Chun; Nahm, Jeong Yeop; Li, Tong; Kanicki, Jerzy; Ugai, Yasuhiro

doi:10.1143/jjap.40.530

Cited by 74 publications

(33 citation statements)

References 14 publications

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“…Besides that, the increase of V T can be attributed to an higher influence of the back surface (the opposite surface to the one that is in contact with the dielectric) as d s decreases, since the surface states also present in that surface, due to their lower energies than the conduction band edge, can act as preferential traps for electrons, which would otherwise be available to form the conductive channel [11]. Similar results were observed for a-Si:H TFTs [12].…”

Section: Methodsmentioning

confidence: 63%

Influence of the semiconductor thickness on the electrical properties of transparent TFTs based on indium zinc oxide

Barquinha

Pimentel

Marques

et al. 2006

Journal of Non-Crystalline Solids

202

141

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Section: Methodsmentioning

confidence: 63%

Influence of the semiconductor thickness on the electrical properties of transparent TFTs based on indium zinc oxide

Barquinha

Pimentel

Marques

et al. 2006

Journal of Non-Crystalline Solids

202

141

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“…To evaluate the performance of different materials, the contact resistance and intrinsic semiconductor parameters were studied. For a low V DS , the total TFT-ON resistance R T can be written as [20] …”

Section: Resultsmentioning

confidence: 99%

Gallium–Indium–Zinc-Oxide-Based Thin-Film Transistors: Influence of the Source/Drain Material

Barquinha

Vilà

Gonçalves

et al. 2008

IEEE Trans. Electron Devices

188

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Abstract-During the last years, oxide semiconductors have shown that they will have a key role in the future of electronics. In fact, several research groups have already presented working devices with remarkable electrical and optical properties based on these materials, mainly thin-film transistors (TFTs). Most of these TFTs use indium-tin oxide (ITO) as the material for source/drain electrodes. This paper focuses on the investigation of different materials to replace ITO in inverted-staggered TFTs based on gallium-indium-zinc oxide (GIZO) semiconductor. The analyzed electrode materials were indium-zinc oxide, Ti, Al, Mo, and Ti/Au, with each of these materials used in two different kinds of devices: one was annealed after GIZO channel deposition but prior to source/drain deposition, and the other was annealed at the end of device production. The results show an improvement on the electrical properties when the annealing is performed at the end (for instance, with Ti/Au electrodes, mobility rises from 19 to 25 cm 2 /V · s, and turn-on voltage drops from 4 to 2 V). Using time-of-flight secondary ion mass spectrometry (TOF-SIMS), we could confirm that some diffusion exists in the source/drain electrodes/semiconductor interface, which is in close agreement with the obtained electrical properties. In addition to TOF-SIMS results for relevant elements, electrical characterization is presented for each kind of device, including the extraction of source/ drain series resistances and TFT intrinsic parameters, such as µ i (intrinsic mobility) and V Ti (intrinsic threshold voltage).

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“…10 The measurement methods used to evaluate the OP-TFT electrical performance are similar to the ones developed for hydrogenated amorphous silicon (a-Si:H) TFTs in our laboratory. 11 We used a Karl Suss PM8 probe station, HP 4156A semiconductor parameter analyzer, and Interactive Characterization Software (ICS, Metrics Technology Inc, Albuquerque, NM). The device electrical characteristics presented in this paper were measured in air, at room temperature, and in the dark.…”

Section: Device Fabrication and Measurement Methodsmentioning

confidence: 99%

Gate-planarized organic polymer thin film transistors

Martin

Nahm

Kanicki

2002

Journal of Elec Materi

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We report in this paper the fabrication and characterization of a new gate-planarized organic polymer thin-film transistor (GP OP-TFT). We describe in detail the effects of the measurement procedure on the GP OP-TFT electrical characteristics and extracted parameters and show that it is extremely critical to carefully control the electrical measurement conditions to obtain accurate and meaningful results, before any material optimization is undertaken. We also describe the importance of normalization of electrical characteristics and extracted parameters for a proper comparison of different devices. Finally, we report and analyze the gate voltage and channel length dependence of the TFT field-effect mobility.

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Influence of the Amorphous Silicon Thickness on Top Gate Thin-Film Transistor Electrical Performances

Cited by 74 publications

References 14 publications

Influence of the semiconductor thickness on the electrical properties of transparent TFTs based on indium zinc oxide

Influence of the semiconductor thickness on the electrical properties of transparent TFTs based on indium zinc oxide

Gallium–Indium–Zinc-Oxide-Based Thin-Film Transistors: Influence of the Source/Drain Material

Gate-planarized organic polymer thin film transistors

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