Litcius/Paper detail

High‐Performance Coplanar Dual‐Channel a‐InGaZnO/a‐InZnO Semiconductor Thin‐Film Transistors with High Field‐Effect Mobility

Mohammad Masum Billah, Abu Bakar Siddik, Jung Bae Kim, Dong Kil Yim, Soo Young Choi, Jian Liu, Daniel Severín, Markus Hanika, Marcus Bender, Jin Jang

2021Advanced Electronic Materials82 citationsDOI

Abstract

Abstract An amorphous indium gallium zinc oxide (a‐IGZO) layer is deposited on very thin conductive amorphous indium zinc oxide (a‐IZO) thin film to demonstrate high‐performance, coplanar thin‐film transistors (TFTs) with dual‐channel oxide semiconductor architecture. Based on material properties, a conduction band offset (∆ E C ) of ≈0.28 eV between a‐IZO and a‐IGZO layers and a conduction band bending of ≈0.3 eV at a‐IGZO/gate insulator (GI) interface exist. Through the electrical characterization, high field‐effect mobility (μ FE ) of ≈50 cm 2 V −1 s −1 , a positive threshold voltage ( V Th ) of ≈2.3 V, and low off‐current ( I OFF ) of <1 pA in coplanar a‐IZO/a‐IGZO TFT are demonstrated. The electron accumulation (>5 × 10 18 cm −3 ) at both the a‐IZO/a‐IGZO and a‐IGZO/GI interfaces confirm the dual‐channel conduction. The bottom a‐IZO channel significantly contributes to increasing drain current ( I D ) due to large electron density (≈10 19 cm −3 ). The dual‐channel coplanar TFT with a‐IGZO/IZO provides a guideline for overcoming the trade‐off between high μ FE and positive V Th control for stable enhancement mode operation with increased I D .

Topics & Concepts

Materials scienceThin-film transistorOptoelectronicsField effectAmorphous solidThreshold voltageElectron mobilitySemiconductorThin filmOxide thin-film transistorTransistorLayer (electronics)NanotechnologyElectrical engineeringVoltageChemistryEngineeringOrganic chemistryThin-Film Transistor TechnologiesZnO doping and propertiesSemiconductor materials and devices
High‐Performance Coplanar Dual‐Channel a‐InGaZnO/a‐InZnO Semiconductor Thin‐Film Transistors with High Field‐Effect Mobility | Litcius