Vishwas Acharya scite author profile

A solution-processed high-performance subvolt (<1 V) tin oxide (SnO2) thin film transistor (TFT) has been fabricated onto an ion-conducting Li–Al2O3 gate dielectric by utilizing a high-permittivity Mn2O3 gate interface. A comparative device characterization of two different TFTs with and without a Mn2O3 gate interface with an ionic dielectric ensures that n-type Mn2O3 induces an additional electron to the semiconductor/dielectric interface trap states. Consequently, the TFT with a Mn2O3 interface achieves a lower subthreshold swing (SS) by keeping the threshold voltage closer to zero compared to the TFT without the Mn2O3 gate interface. This SnO2 TFT with Mn2O3 interface requires only 0.6 V to saturate the drain current, and device performance under such low-voltage (0.6 V) operation exhibits an electron mobility of 17 cm2/V·s with on/off ratio of 3.3 × 104 and subthreshold swing of 124 mV/dec. This work provides a potential approach to achieve a high-performance low-voltage TFT by selecting a suitable combination of dielectric materials.

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Solution processed low band gap ion-conducting gate dielectric for low voltage metal oxide transistor

Chourasia

Sharma

Acharya

et al. 2019

Journal of Alloys and Compounds

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Ultra-Low Voltage Metal Oxide Thin Film Transistor by Low-Temperature Annealed Solution Processed LiAlO2 Gate Dielectric

Sharma

Chourasia

Acharya

et al. 2019

Electron. Mater. Lett.

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High-κ SrTiO3 thin film as gate dielectric of a solution processed SnO2 thin film transistor

Acharya

Pal

Pandey

et al. 2023

Materials Science in Semiconductor Processing

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Application of a microwave synthesized ultra-smooth a-C thin film for the reduction of dielectric/semiconductor interface trap states of an oxide thin film transistor

et al. 2022

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Vishwas Acharya

Gate Interface Engineering for Subvolt Metal Oxide Transistor Fabrication by Using Ion-Conducting Dielectric with Mn₂O₃ Gate Interface

Solution processed low band gap ion-conducting gate dielectric for low voltage metal oxide transistor

Ultra-Low Voltage Metal Oxide Thin Film Transistor by Low-Temperature Annealed Solution Processed LiAlO2 Gate Dielectric

High-κ SrTiO3 thin film as gate dielectric of a solution processed SnO2 thin film transistor

Application of a microwave synthesized ultra-smooth a-C thin film for the reduction of dielectric/semiconductor interface trap states of an oxide thin film transistor

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Vishwas Acharya

Gate Interface Engineering for Subvolt Metal Oxide Transistor Fabrication by Using Ion-Conducting Dielectric with Mn2O3 Gate Interface

Solution processed low band gap ion-conducting gate dielectric for low voltage metal oxide transistor

Ultra-Low Voltage Metal Oxide Thin Film Transistor by Low-Temperature Annealed Solution Processed LiAlO2 Gate Dielectric

High-κ SrTiO3 thin film as gate dielectric of a solution processed SnO2 thin film transistor

Application of a microwave synthesized ultra-smooth a-C thin film for the reduction of dielectric/semiconductor interface trap states of an oxide thin film transistor

Contact Info

Product

Resources

About

Gate Interface Engineering for Subvolt Metal Oxide Transistor Fabrication by Using Ion-Conducting Dielectric with Mn₂O₃ Gate Interface