The Deterioration Phenomenon of Amorphous InSnZnO Transistors Derived from the Process of Annealing

Tomai, Shigekazu; Hayasaka, Hiromi; Sunagawa, Misa; Kawashima, Emi; Ishii, Susumu; Nishimura, Mami; Kasami, Masashi; Yano, Koki; Wang, Dapeng; Furuta, Mamoru

doi:10.1149/2.003312ssl

Cited by 8 publications

(5 citation statements)

References 17 publications

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“…In literature, XPS analysis showed that the annealed a-ITZO film has a lower amount of oxygen vacancy. 21 In contrary, for similar type of material (a-IGZO) based TFTs, it is reported that the improved electrical properties at higher anneal temperature suggest a decrease in the density of trap states localized below the conduction band. 3 Overall, we concluded that the a-ITZO film thickness of 8 nm with 30% O 2 content can be considered optimal for further integration.…”

Section: Table I Comparison Of A-itzo Tft Characteristics For Differmentioning

confidence: 97%

Self-Aligned Amorphous Indium-Tin-Zinc-Oxide Thin Film Transistors on Polyimide Foil

Upadhyay

Hung

Mandal

et al. 2018

ECS J. Solid State Sci. Technol.

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In this work, we report on high-performance coplanar self-aligned (SA) amorphous-Indium-Tin-Zinc-Oxide (a-ITZO) thin-film transistors (TFTs) on flexible polyimide substrate. The a-ITZO films are first optimized with respect to the oxygen ratio, thickness and final anneal conditions with common-gate TFTs structure on Si/SiO 2 substrate. Optimized TFTs show mobility (μ lin) between 20.0-25.0 cm 2 /(V.s). Material characterization revealed some degree of order compared to a truly amorphous film like a-IGZO but no grain boundaries or crystalline domains were observed. The a-ITZO films were integrated in coplanar SA TFT architecture on polyimide using hydrogen rich plasma (SiH 4 based chemistry) as dopant for the source/drain (S/D) regions resulting in field-effect mobility (μ FE) of 27.0 cm 2 / (V.s), sub-threshold slope (SS −1) of 0.40 V/decade and I ON /I OFF ratio of >10 8. The threshold voltage shifts of the TFTs under both positive and negative gate bias stress of 1MV/cm for 10 4 seconds were less than 1.5 V. We have also investigated the applicability of the SA a-ITZO TFTs in logic circuitry such as 19-stage ring-oscillators (ROs).

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Section: Table I Comparison Of A-itzo Tft Characteristics For Differmentioning

confidence: 97%

Self-Aligned Amorphous Indium-Tin-Zinc-Oxide Thin Film Transistors on Polyimide Foil

Upadhyay

Hung

Mandal

et al. 2018

ECS J. Solid State Sci. Technol.

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“…Compared to Device F1, Device F0 (Figure 4B) shows no hysteresis, a comparable V th and SS of −0.8 V and 81.6 mV/decade, a higher on‐off ratio of 1.5 × 10 10 , and improved saturation mobility (μ sat ) of 22.3 cm 2 /Vs. According to Tomai et al, 11 the annealing process before the ESL deposition may result in the generation of a depletion layer under the S/D electrodes and hence the increase of S/D contact resistance. Therefore, the increase of on‐off ratio and mobility in Device F0 can be plausibly explained.…”

Section: Resultsmentioning

confidence: 99%

A cost‐effective fluorination method for enhancing the performance of metal oxide thin‐film transistors

et al. 2021

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Fluorination is a common technique for enhancing the performance of metal oxide (MO) thin-film transistors (TFTs). However, it usually requires extra processing steps under harsh conditions and brings about a high thermal budget. This work reports a mild fluorination method for MO TFTs using a fluorinated polyimide (F-PI) in an industry-standard planarization (PLN) process. During the thermal curing of the F-PI, fluorine-containing fragments diffused into MO channels and significantly improved the electrical performance of MO-TFTs. Channel fluorination was observed in both bottom-and top-gated devices, exemplifying the effectiveness of this method. A 2.2-in., monochrome AMOLED prototype display was fabricated using the fluorinated MO TFTs. This method provides a mild and low-thermal-budget fluorination technique and is useful for the cost-effective production of active-matrix flat-panel display panels.fluorination, metal oxide, planarization, thin-film transistor | INTRODUCTIONMetal oxide (MO) thin-film transistors (TFTs) have become one of the mainstream backplane technologies in active-matrix flat-panel displays (AM-FPDs). However, their instabilities against electrical, thermal, and illumination stresses remain a critical issue. Oxygen-related deficiencies in MO channels, such as oxygen vacancies and weakly bonded oxygens, 1 are strongly associated with these instabilities. To passivate these deficiencies, thermal annealing in oxygen-containing atmospheres is a common practice in the fabrication of MO TFTs. However, these oxidation processes are usually performed at 300 C or higher for several hours, leading to a high thermal budget that is undesirable in cost-effective manufacturing. Modified annealing methods, such as annealing in moist O 2 2 or O 3 3 and annealing with high pressure, 4 microwaves, 5 or irradiation, 6 can reduce the

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“…3(a) shows the influence of the PLN process on the transfer curves of Device F1. With the cured F-PI layer, the device exhibits improved electrical characteristics with a positive shift of threshold voltage (Vth) from -3.3 V to -0.7 V, a decrease of subthreshold swing (SS) from 130.2 mV/decade to 80.8 mV/decade, and a rise of on-off ratio from 1.2×10 8 to 4.1×10 9 . The clockwise hysteresis phenomenon observed before the PLN process almost disappears.…”

Section: Resultsmentioning

confidence: 99%

“…Compared to Device F1, Device F0 shows no hysteresis and has a comparable Vth and SS of -0.8 V and 81.6 mV/decade, respectively. Probably due to the elimination of the additional annealing processes [9], the device owns relatively better S/D contacts with no current crowding effect in its output curves (Fig. 3(c)), leading to a higher on-off ratio of 1.5×10 10 and a boosted saturation mobility (µsat) of 22.3 cm 2 /Vs.…”

Section: Resultsmentioning

confidence: 99%

8‐1: Distinguished Paper: A Cost‐Effective Fluorination Method for Enhancing the Performance of Metal Oxide Thin‐Film Transistors Using a Fluorinated Planarization Layer

Deng

Zhong

Dong

et al. 2021

Symp Digest of Tech Papers

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The Deterioration Phenomenon of Amorphous InSnZnO Transistors Derived from the Process of Annealing

Cited by 8 publications

References 17 publications

Self-Aligned Amorphous Indium-Tin-Zinc-Oxide Thin Film Transistors on Polyimide Foil

Self-Aligned Amorphous Indium-Tin-Zinc-Oxide Thin Film Transistors on Polyimide Foil

A cost‐effective fluorination method for enhancing the performance of metal oxide thin‐film transistors

8‐1: Distinguished Paper: A Cost‐Effective Fluorination Method for Enhancing the Performance of Metal Oxide Thin‐Film Transistors Using a Fluorinated Planarization Layer

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