Inicio
Explorar
nav.journalClub
Tendencias
Más
synapse
⌘+K
Idioma
Español
Español
March 3, 2026
High quality atmospheric water harvesting enabled by nanocomposite sorbent with macro-porous photothermal structure and hygroscopic salt loading
XF
Xiang Fu
JC
Junhao Chen
JD
Jiehao Du
Ver todo
Puntos clave
High-quality atmospheric water harvesting significantly improves with advanced nanocomposite sorbents, which enhance water capture efficiency.
The study reports a notable increase in yield due to the combination of macro-porous photothermal structures and hygroscopic salts.
Assessment using advanced nanocomposite materials leads to better water collection from the atmosphere, representing a novel approach.
The findings indicate that this method could offer valuable solutions for regions facing water scarcity, but broader applications need verification.
Mark Helpful
Me gusta
Save
Guardar
Relay
Compartir
Mark Helpful
Me gusta
Save
Guardar
Relay
Compartir
Cite This Study
Copy
Fu et al. (Fri,) studied this question.
synapsesocial.com/papers/69a7689dbadf0bb9e87e54af
https://doi.org/https://doi.org/10.1016/j.jece.2026.121652
High quality atmospheric water harvesting enabled by nanocomposite sorbent with macro-porous photothermal structure and hygroscopic salt loading | Synapse