Enhancement in the optical and electrical properties of CdS thin films through Ga and K co-doping
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- 作者:S. Yılmaza ; slh_yilmaz@yahoo.com.tr ; S.B. Tö ; relib ; İ. Polatc ; M.A. Olgard ; M. Tomakine ; E. Bacaksızd
- 关键词:CdS ; (Ga-K) co-doping ; Optical properties ; Electrical properties
- 刊名:Materials Science in Semiconductor Processing
- 出版年:2017
- 出版时间:15 March 2017
- 年:2017
- 卷:60
- 期:Complete
- 页码:45-52
- 全文大小:3575 K
- 卷排序:60
文摘
In the presented work, Ga-doped CdS and (Ga-K)-co-doped CdS thin films are grown on glass substrates at a temperature of 400 °C through spray pyrolysis. Influence of K-doping on structural, morphological, optical and electrical characteristics of CdS:Ga thin films are examined. K level is changed from 1 at% to 5 at% for CdS:Ga samples just as Ga concentration is fixed 2 at% for all CdS thin films. It is observed from the X-ray diffraction data that all the samples exhibit hexagonal structure and an increase level of K in Ga-doped CdS samples causes a degradation in the crystal quality. Energy-dispersive X-ray spectroscopy measurements illustrate that the best stoichiometric film is acquired when K content is 2 at% in Ga-doped CdS films. Optical transmission curves demonstrate that CdS:Ga thin films exhibit the best optical transparency in the visible range for 4 at% K content compared to other specimens. A widening in the optical bandgap is unveiled after K-dopings. It is obtained that maximum band gap value is found as 2.45 eV for 3 at%, 4 at% and 5 at%. K -dopings while Ga-doped CdS thin films display the band gap value of 2.43 eV. From photoluminescence measurements, the most intensified peak is observed in the deep level emission after incorporation of the 4 at% K atoms. As for electrical characterization results, the resistivity reduces and the carrier density improves with the increase of K concentration from 1 at% to 4 at%. Based on all the data, it can be deduced that 4 at% K-doped CdS:Ga thin films show the best optical and electrical behavior, which can be utilized for solar cell devices.