Alkaline earth metals doped VO2 nanoparticles for enhanced interfacial solar steam generation

•The solar evaporation efficiency of 93.45% was achieved by wood covered by VO2-Ba.•The ratio of preparation cost to evaporation flux is 1.16 USD kg−1 m−2 h−1.•The concentration of Na+ of Caspian seawater reduced from 3138.19 to 2.63 ppm. Interfacial solar steam generation (SSG) as a green desalinat...

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Published in:Materials research bulletin 2022-05, Vol.149, p.111705, Article 111705
Main Authors: Aziznezhad, Mohammad, Goharshadi, Elaheh K., Mehrkhah, Roya, Ghafurian, Mohammad Mustafa
Format: Article
Language:English
Subjects:
Ba doped with VO2
Evaporation efficiency
Photothermal material
Solar steam generation
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Summary:•The solar evaporation efficiency of 93.45% was achieved by wood covered by VO2-Ba.•The ratio of preparation cost to evaporation flux is 1.16 USD kg−1 m−2 h−1.•The concentration of Na+ of Caspian seawater reduced from 3138.19 to 2.63 ppm. Interfacial solar steam generation (SSG) as a green desalination technique offers significant potential to obtain freshwater. For the first time, the performance of alkaline earth metals doped VO2 nanoparticles (VO2@alkaline earth metals) as highly efficient photothermal materials coated on poplar wood as a sustainable substrate in SSG of seawater is investigated. Among the fabricated photoabsorbers, the wood coated with VO2 doped with Ba, W/VO2-Ba, had the highest solar evaporation efficiency of 93.45% under 1 sun (1 sun = 1 kW m−2). For this photoabsorber, the concentration of Na+ of seawater (3138.19 ppm) reduced to 2.63 ppm after desalination. The ratio of preparation cost to evaporation flux was calculated as 1.16 USD kg−1 m−2 h−1. The efficiency of W/VO2-Ba did not change significantly after 20 cycles. [Display omitted]
ISSN:0025-5408
1873-4227
DOI:10.1016/j.materresbull.2021.111705