Post-annealing effects on the structural, optical and electrical properties of ito films studied by spectroscopic ellipsometry

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Author list: Inritsapong Y., Chindaudom P., Nuntawong N., Patthanasetthakul V., Horphathum M., Eiamchai P., Pokaipisit A., Limsuwan P.

Publisher: World Scientific Publishing

Publication year: 2010

Journal: Modern Physics Letters B (0217-9849)

Volume number: 24

Issue number: 6

Start page: 595

End page: 605

Number of pages: 11

ISSN: 0217-9849

eISSN: 1793-6640

URL: https://www.scopus.com/inward/record.uri?eid=2-s2.0-77951568679&doi=10.1142%2fS0217984910022652&partnerID=40&md5=7e73e5aada5c0a211dfc3fbdcd0779d5

Languages: English-Great Britain (EN-GB)

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Abstract

ITO thin films were coated on unheated glass and Si-wafer (100) substrates by ion-assisted evaporation. The effects of post annealing, in vacuum at 250°C and 350°C for 1 h, on the structural, optical and electrical properties were studied. The structure was characterized by X-ray diffraction (XRD). The surface morphology of the films was investigated by atomic force microscopy (AFM). The optical properties were evaluated by spectrophotometer and spectroscopic ellipsometry (SE). The resistivity was measured by the four-point probes method. It was found that the increase of post-annealing temperature would improve the film crystallinity and electrical properties. The preferred orientation of ITO thin film after annealing is (222). The resistivity of the as-deposited film is found to be 5.52 × 10-4 Ωcm and decreases to 2.11 × 10-4 Ωcm after annealing at 350°C. The AFM image reveals that the surface roughness decreases with increasing annealing temperature. The uniqueness test based on SE analysis data has been applied for ITO modeling. This modeling indicates that the film microstructure consists of three layers including the higher-index ITO layer, the effective medium approximation (EMA) layer to represent a slightly lower optical index, and the surface roughness layer on top. The EMA thickness and its relative composition decrease with increasing annealing temperature. The extinction coefficient in the IR region increases whereas the refractive index decreases with increasing annealing temperature. © 2010 World Scientific Publishing Company.

Keywords

Annealing, Indium tin oxide, Optical constant, Spectroscopic ellipsometry