Abstract
An Al2O3 antireflection layer was placed between a glass substrate and a transparent conducting oxide layer in order to decrease optical reflection in microcrystalline silicon (μc-Si:H) p–i–n solar cells. Optical simulations showed that reflections were decreased by Al2O3 thin films, these reflections were found to be at a minimum when a 40nm thick Al2O3 layer was used. Experimental results demonstrated that the measured reflectance of μc-Si:H solar cells was decreased by employing the proposed 40nm Al2O3 in all wavelength regions and the quantum efficiency was also increased. The short-circuit current was increased from 22.7 to 23.5mA/cm2 without sacrificing open circuit voltage or fill factor. The average efficiency of devices was improved from 6.02% to 6.32% by introducing 40nm Al2O3 antireflection layer.
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