Junctionless Coplanar-Gate Oxide-Based Thin-Film Transistors Gated by AluOa Proton Conducting Films on Paper Substrates

Nanogranular Al2O3 films deposited by plasma-enhanced chemical vapor deposition show a high proton conductivity of -1.25 × 10^-4 S/cm and a huge electric-double-layer （EDL） capacitance of -4.8μF/cm^2 at room temperature. Using nanogranular Al2O3 proton conducting films as gate dielectrics, junctionl...

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Veröffentlicht in:	中国物理快报：英文版 2014 (10), p.157-160
1. Verfasser:	吴国栋张进万相
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Sprache:	eng
Schlagworte:	Al2O3膜共面氧化物等离子体增强化学气相沉积纸基材薄膜晶体管质子传导质子导电膜
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description	Nanogranular Al2O3 films deposited by plasma-enhanced chemical vapor deposition show a high proton conductivity of -1.25 × 10^-4 S/cm and a huge electric-double-layer （EDL） capacitance of -4.8μF/cm^2 at room temperature. Using nanogranular Al2O3 proton conducting films as gate dielectrics, junctionless indium-zincoxide （IZO） thin-film transistors （TFTs） with a coplanar-gate configuration are fabricated. The unique feature of such junctionless TFTs is that the channel and source/drain electrodes are the same thin IZO film without any source/drain junction. Due to the strong EDL capacitive coupling triggered by mobile protons in nanogranular Al2O3, these TFTs show a low-voltage operation of 1.5 V and a high performance with a large field-effect mobility （〉18cm2/V.s）, a small .subthreshold swing （〈130mV/decade） and a high current on/off ratio （〉 106）. Our results demonstrate that such junetionless TFTs gated by Al2O3 proton conducting films have great potential applications in low-power and low-cost electronics.
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Using nanogranular Al2O3 proton conducting films as gate dielectrics, junctionless indium-zincoxide （IZO） thin-film transistors （TFTs） with a coplanar-gate configuration are fabricated. The unique feature of such junctionless TFTs is that the channel and source/drain electrodes are the same thin IZO film without any source/drain junction. Due to the strong EDL capacitive coupling triggered by mobile protons in nanogranular Al2O3, these TFTs show a low-voltage operation of 1.5 V and a high performance with a large field-effect mobility （〉18cm2/V.s）, a small .subthreshold swing （〈130mV/decade） and a high current on/off ratio （〉 106）. 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Using nanogranular Al2O3 proton conducting films as gate dielectrics, junctionless indium-zincoxide （IZO） thin-film transistors （TFTs） with a coplanar-gate configuration are fabricated. The unique feature of such junctionless TFTs is that the channel and source/drain electrodes are the same thin IZO film without any source/drain junction. Due to the strong EDL capacitive coupling triggered by mobile protons in nanogranular Al2O3, these TFTs show a low-voltage operation of 1.5 V and a high performance with a large field-effect mobility （〉18cm2/V.s）, a small .subthreshold swing （〈130mV/decade） and a high current on/off ratio （〉 106）. Our results demonstrate that such junetionless TFTs gated by Al2O3 proton conducting films have great potential applications in low-power and low-cost electronics.</abstract></addata></record>
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subjects	Al2O3膜共面氧化物等离子体增强化学气相沉积纸基材薄膜晶体管质子传导质子导电膜
title	Junctionless Coplanar-Gate Oxide-Based Thin-Film Transistors Gated by AluOa Proton Conducting Films on Paper Substrates
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