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Article Abstract
Despite being an excellent candidate for a photocathode, CuZnSnS (CZTS) performance is limited by suboptimal bulk and interfacial charge carrier dynamics. In this work, we introduce a facile and versatile CZTS precursor seed layer engineering technique, which significantly enhances crystal growth and mitigates detrimental defects in the post-sulfurized CZTS light-absorbing films. This effective optimization of defects and charge carrier dynamics results in a highly efficient CZTS/CdS/TiO/Pt thin-film photocathode, achieving a record half-cell solar-to-hydrogen (HC-STH) conversion efficiency of 9.91%. Additionally, the photocathode exhibits a highest photocurrent density (J) of 29.44 mA cm (at 0 V) and favorable onset potential (V) of 0.73 V. Furthermore, our CTZS photocathode demonstrates a remarkable J of 16.54 mA cm and HC-STH efficiency of 2.56% in natural seawater, followed by an impressive unbiased STH efficiency of 2.20% in a CZTS-BiVO tandem cell. The scalability of this approach is underscored by the successful fabrication of a 4 × 4 cm module, highlighting its significant potential for practical, unbiased in situ solar seawater splitting applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12084205 | PMC |
| http://dx.doi.org/10.1007/s40820-025-01755-8 | DOI Listing |
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