Abstract
We study microcrystalline germanium (μc-Ge) film as narrow gap semiconductor materials for infrared absorbers by reactive sputtering with inert gas/mixtures. H 2 mixed with Ne, Ar and Xe was used as sputtering gases, in order to research effects of the ion damage. A higher deposition rate is obtained by using inert gases with a larger mass. But the crystallinity becomes lower by the damage due to larger mass ions. In the Ar/H 2 mixtures, the structure changes from crystalline to amorphous with increase in the Ar/H 2 flow rate ratio. The damage of Xe ion is too large to crystallize the films, but the influence of Ne on the crystallinity is not significant. The photo-sensitivity is obtained in the mixed structures between crystalline and amorphous given by proper ion damages. The amorphous parts probably contribute suppression of the grain-boundary defects. The observation of photo-sensitivity indicates the possibility of μc-Ge as a narrow gap material for PV cells.
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