Abstract
Solar cells based on a high-efficiency silicon nanostructure (SNS) were developed using a two-step metal-assisted electroless etching (MAEE) technique, phosphorus silicate glass (PSG) doping and screen printing. This process was used to produce solar cells with a silver nitrate (AgNO3) etching solution in different concentrations. Compared to cells produced using the single MAEE technique, SNS-based solar cells produced with the two-step MAEE technique showed an increase in silicon surface coverage of ∼181.1% and a decrease in reflectivity of ∼144.3%. The performance of the SNS-based solar cells was found to be optimized (∼11.86%) in an SNS with a length of ∼300 nm, an aspect ratio of ∼5, surface coverage of ∼84.9% and a reflectivity of ∼6.1%. The ∼16.8% increase in power conversion efficiency (PCE) for the SNS-based solar cell indicates good potential for mass production.
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