Structural, optical and electrical properties of heavy ion irradiated CdZnO thin films

Publication date: Available online 12 December 2015
Source:Thin Solid Films
Author(s): A. GuruSampath Kumar, T. Sofi Sarmash, L. Obulapathi, D. Jhansi Rani, T. Subba Rao, K. Asokan
The thin films of CdZnO were deposited on glass substrates using dc magnetron sputtering technique and investigated after heavy ion irradiations of 100MeV Au ions with the fluences ranging from 1×10¹¹ ions/cm² to 1×10¹³ ions/cm². The structural, optical and electrical properties of the irradiated and pristine films were studied by glancing angle X-ray diffraction (GAXRD), UV–vis-NIR spectroscopy and Hall effect measurement. The structural characterization using GAXRD pattern shows an enhancement of crystallinity up to the ion fluence of 5×10¹² ions/cm², and the crystallinity decreases at the highest fluence of 1×10¹³ ions/cm² and these films exhibit hexagonal–wurtzite crystal structure (002) with a c-axis orientation. The optical transmittance spectra reveals a red shift and the optical band gap decreases upon ion irradiation with the minimum band gap at the ion fluence of 5×10¹² ions/cm². The average transmittance of the thin film of CdZnO increases from 75% to 85% after irradiation (up to 5×10¹² ions/cm²). The atomic force microscopy image of the films reveals that roughness decreases up to the fluence of 5×10¹² ions/cm² and increases at higher fluences. The films irradiated with a fluence of 5×10¹² ions/cm² would show better electrical properties like low resistivity, high carrier concentration and mobility compared to other irradiated films.