Enhanced osmotic transport in individual double-walled carbon nanotube - Archive ouverte HAL
Article Dans Une Revue Nature Communications Année : 2023

Enhanced osmotic transport in individual double-walled carbon nanotube

Résumé

The transport of fluid and ions across nanotubes or nanochannels has attracted great attention due to the ultrahigh energy power density and slip length, with applications in water purification, desalination, energy conversion and even ion-based neuromorphic computing. Investigation on individual nanotube or nanochannel is essential in revealing the fundamental mechanism as well as demonstrating the property unambiguously. Surprisingly, while carbon nanotube is the pioneering and one of the most attractive systems for nanofluidics, study on its response and performance under osmotic forcing is lacking. Here, we measure the osmotic energy conversion for individual double-walled carbon nanotube with an inner radius of 2.3 nm. By fabricating a nanofluidic device using photolithography, we find a giant power density (up to 22.5 kW/m 2 ) for the transport of KCl, NaCl, and LiCl solutions across the tube. Further experiments show that such an extraordinary performance originates from the ultrahigh slip lengths (up to a few micrometers). Our results suggest that carbon nanotube is a good candidate for not only ultrafast transport, but also osmotic power harvesting under salinity gradients.
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hal-04104071 , version 1 (09-09-2024)

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Guandong Cui, Zhi Xu, Han Li, Shuchen Zhang, Luping Xu, et al.. Enhanced osmotic transport in individual double-walled carbon nanotube. Nature Communications, 2023, 14 (1), pp.2295. ⟨10.1038/s41467-023-37970-3⟩. ⟨hal-04104071⟩
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