A analysis group led by Prof. Wang Mingtai on the Hefei Institutes of Bodily Science of the Chinese language Academy of Sciences has developed a finely tuned methodology for rising titanium dioxide nanorod arrays (TiO2-NA) with controllable spacing with out altering particular person rod measurement and demonstrated its software in high-performance photo voltaic cells.
Their findings, printed in Small Strategies, supply a brand new toolkit for crafting nanostructures throughout clear power and optoelectronics.
Single-crystalline TiO2 nanorods excel at harvesting gentle and conducting cost, making them superb for photo voltaic cells, photocatalysts, and sensors. Nevertheless, conventional fabrication strategies hyperlink rod density, diameter, and size—if one parameter is adjusted, the others shift accordingly, usually affecting gadget effectivity.
On this examine, by fastidiously extending the hydrolysis stage of a precursor movie, the group confirmed that longer “gel chains” assemble into smaller anatase nanoparticles. When the anatase movie is subjected to hydrothermal remedy, these anatase nanoparticles convert in situ into rutile ones, serving as seeds for nanorod development. The hydrolysis stage gives an efficient approach to management the rod density with out altering the nanorod dimensions.
Utilizing this technique, they produced TiO2-NA movies with fixed rod diameter and top, even because the variety of rods per space diverse. When included into low-temperature-processed CuInS2 photo voltaic cells, these movies achieved energy conversion efficiencies above 10%, peaking at 10.44 %.
To elucidate why spacing issues so profoundly, the group launched a Quantity-Floor-Density mannequin, clarifying how rod density influences gentle trapping, cost separation, and service assortment.
This examine overcomes the restrictions of conventional strategies for regulating nanostructures by establishing an entire system linking “macro-process regulation–microstructure evolution–gadget efficiency optimization.”
Extra info:
Wenbo Cao et al, Unveiling Development and Photovoltaic Rules in Density‐Controllable TiO2 Nanorod Arrays for Environment friendly Photo voltaic Cells, Small Strategies (2025). DOI: 10.1002/smtd.202500264
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Chinese language Academy of Sciences
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Finely-tuned TiO₂ nanorod arrays improve photo voltaic cell effectivity (2025, Could 16)
retrieved 17 Could 2025
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