Texture-etched broad surface features of double-layered ZnO:Al transparent conductive films for high haze values

2014 
Abstract A multi-step chemical wet-etching method, with a process of ZnO:Al (AZO) deposition, NH 3 ⋅H 2 O etching, AZO re-deposition and HCl re-etching, is developed to obtain a wide range distribution of texture features for improving the light trapping. The first mild step with a NH 3 ⋅H 2 O etching process (for 4 min) results in tiny craters with a lateral feature size of 100–400 nm and root mean square (RMS) roughness of 34.5 nm, which provides an effective light trapping for the short wavelength. The second HCl etching (for 15 s) aims at texturing strong pits with ∼1.5 μm feature size and ∼75 nm RMS, which leads to enhanced light trapping in the long wavelength. The diffuse transmittance increases from 9.0% to 51.6% due to the enhanced light scattering by the double-layered texture with the NH 3 ⋅H 2 O and HCl etching processes. The corresponding highest haze value of 59.6% is obtained compared to that of 6.8% at 550 nm due to the re-etching process for the NH 3 ⋅H 2 O-etched sample. This multi-step method will lead to a broad surface feature distribution of 100–1500 nm, where the electrical properties remain a slight change. Such good double texture surfaces prepared by the novel etching method promote the potential application of AZO films in thin film solar cells.
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