Abstract

Sputtering has been well-developed industrially with singular ambient gases including neutral argon (Ar), oxygen (O2), hydrogen (H2) and nitrogen (N2) to enhance the electrical and optical performances of indium tin oxide (ITO) films. Recent preliminary investigation into the use of combined ambient gases such as an Ar+O2+H2 ambient mixture, which was suitable for producing high-quality (low sheet resistance and high optical transmittance) of ITO films. To build on this promising preliminary work and develop deeper insight into the effect of ambient atmospheres on ITO film growth, this study provides a more detailed investigation of the effects of ambient combinations of Ar, O2, H2 on sputtered ITO films. Thin films of ITO were deposited on glass substrates by DC magnetron sputtering using three different ambient combinations: Ar, Ar+O2 and Ar+O2+H2. The structural, electrical and optical properties of the three ambient sputtered ITO films were systematically characterized by X-ray diffraction (XRD), atomic force microscopy (AFM), scanning electron microscopy (SEM), Raman spectroscopy, four probe electrical conductivity and optical spectroscopy. The XRD and Raman studies confirmed the cubic indium oxide structure, which is polycrystalline at room temperature for all the samples. AFM shows the minimum surface roughness of 2.7 nm for Ar+O2+H2 sputtered thin film material. The thickness of the films was determined by the cross sectional SEM analysis and its thickness was varied from 920 to 817 nm. The columnar growth of ITO films was also discussed here. The electrical and optical measurements of Ar+O2+H2 ambient combinations shows a decreased sheet resistance (5.06 ohm/□) and increased optical transmittance (69%) than other samples. The refractive index and packing density of the films were projected using optical transmission spectrum. From the observed results the Ar+O2+H2 ambient is a good choice to enhance the total optoelectronic properties of the ITO films. The improved electrical and optical properties of ITO films with respect to the Ar+O2+H2 ambient sample were discussed in detail. In addition, the physical properties were also discussed with the influence of this ambient combination with respect to Ar, Ar+O2 and Ar+O2+H2.

Highlights

  • The outstanding electrical and optical properties of transparent conducting oxides (TCOs) have been extensively studied.[1]

  • A correlation is performed between the electrical and optical properties of indium tin oxide (ITO) films results which were presented and discussed in detail to gain an understanding of the material growth and how it is influenced by different ambient combinations

  • The structural properties of the deposited ITO films determined by X-ray diffraction (XRD) results are shown in the Fig. 1

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Summary

INTRODUCTION

The outstanding electrical and optical properties of transparent conducting oxides (TCOs) have been extensively studied.[1]. Initial reports provided a preliminary investigation into the use of an Ar+O2+H2 ambient mixture, which was suitable for producing high-quality (lowest sheet resistance and high optical transmittance) of ITO films.[15,17]. To build on this promising preliminary work and develop deeper insight into the effect of ambient atmospheres on ITO film growth, this study provides a more detailed investigation of the effects of ambient combinations of Ar, O2, H2 on sputtered ITO films. A correlation is performed between the electrical and optical properties of ITO films results which were presented and discussed in detail to gain an understanding of the material growth and how it is influenced by different ambient combinations

Thin film deposition
Thin-Film Characterization
RESULTS AND DISCUSSION
CONCLUSIONS

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