Field-Effect Mobility Enhancement in Low Temperature ALD ZnO Thin-film Transistors via Contact Defects Engineering Suitable for BEOL Integration
2022 6th IEEE Electron Devices Technology & Manufacturing Conference (EDTM)(2022)
摘要
Low temperature ZnO thin-film transistors suitable for beyond Backend-of-line integration were fabricated using low-temperature atomic layer deposition process. Using O
2
/Ar plasma to engineer defects density at the contacts, significant contact resistance reduction to 0.44 kΩ/µm (83%) was achieved. Consequently, the field-effect mobility improves >1 order to 23.7 cm
2
/V.s. The enhancement is due to several factors including ZnO crystallinity, smooth interface layer, and appropriate stiochiometry as characterized via XRD, AFM and XPS. (Keywords: Oxides, Thin-film-Transistors, BEOL)
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关键词
low-temperature atomic layer deposition,defects density,contact resistance reduction,crystallinity,field-effect mobility enhancement,zinc oxide thin-film transistors,backend-of-line integration,smooth interface layer,stiochiometry,X-ray diffraction,X-ray photoelectron spectra,atomic force microscopy,ZnO
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