This paper reports on a facile bottom-up method for the direct integration of a silicon (Si)-magnesium silicide (MgSi) heterojunction solar cell (HSC) with a textured rear reflector made of stainless steel (SS). Modified wet chemical etching and post processing of SS substrates resulted in the formation of both a rough surface texture and diffusion barrier layer, consisting of magnetite (FeO) with reduced optical reflection. Then, Si, MgSi and CaSi layers were stepwise thermally evaporated onto the textured SS surface. No traces of Fe and Cr silicide phases were detected by Raman spectroscopy, confirming effective suppression of impurity diffusion from the SS to the upper layers at least at temperatures required for Si deposition, as well as MgSi and CaSi formation. The obtained black-SS/FeO/Si/MgSi/CaSi sample preserved, to some extent, its underlying textured morphology and demonstrated an averaged reflection of 15% over the spectral range of 200-1800 nm, while its prototype HSC possessed a wideband photoresponse with a photoelectric conversion efficiency of 7.5% under AM1.5 illumination. Moreover, Si layers deposited alone onto a black-SS substrate demonstrated competitive antireflection properties compared with black Si (b-Si) obtained by traditional top-down etching approaches, and hybrid b-Si/textured-SS structures with a glue-bonded interlayer.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9573594 | PMC |
| http://dx.doi.org/10.3390/ma15196637 | DOI Listing |
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