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Natural leaf-inspired solar water splitting system
- Author(s)
- Jin, Wonjoo, Shin, Changhwan, Lim, Seyeon, Lee, Kangmin, Yu, Je Min, Seo, Kwanyong, Jang, Ji-Wook
- Issued Date
- 2023-03
- Citation
- APPLIED CATALYSIS B-ENVIRONMENTAL, v.322, pp.122086
- Abstract
- We designed a monolithic artificial leaf that mimics a natural leaf; the artificial leaf has a crystalline silicon (c-Si) interdigitated back contact (collectively, c-Si IBC) structure. On the front-side of the artificial leaf, the c-Si module acts similar to chlorophyll in natural leaves, converting solar energy into photo-carriers. On the rear-side of the artificial leaf, a hydrogen and oxygen evolution catalyst converts the carriers into hydrogen; this occurs without blocking light, similar to the conversion of photo-carriers into chemical energy, which mostly occurs on the backside of natural leaves. The solar-to-hydrogen conversion efficiency of the c-Si IBC photoanode and artificial leaf was 10.1% and 8.4% respectively, which are higher than that of a natural leaf (0.1-1%).
- Publisher
- ELSEVIER
- ISSN
- 0926-3373
- Keyword (Author)
- Water splitting, Crystalline silicon, Artificial leaf, Photoelectrochemical cell, Interdigitated back contact (IBC)
- Keyword
- HYDROGEN-PRODUCTION, SILICON, CHLOROPLAST, EFFICIENCY, CELLS
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