Temperature-Dependent Structural Properties of Nickel and Cobalt Selenite Hydrates as Solar Water Evaporators.
Anastasiia TaranovaKamran AkbarElisa MorettiAlberto VomieroGiuseppe PezzottiTatsuro MoritaElia MarinWenliang ZhuPublished in: Materials (Basel, Switzerland) (2024)
Solar water evaporation offers a promising solution to address global water scarcity, utilizing renewable energy for purification and desalination. Transition-metal selenite hydrates (specifically nickel and cobalt) have shown potential as solar absorbers with high evaporation rates of 1.83 and 2.34 kg∙m -2 ∙h -1 , but the reported discrepancy in evaporation rate deserves further investigation. This investigation aims to clarify their thermal stability for applications and determine the underlying mechanisms responsible for the differences. Nickel and cobalt selenite hydrate compositions were synthesized and investigated via thermogravimetric analysis, X-ray diffraction, and Raman spectroscopy to assess their temperature-induced structural and compositional variations. The results reveal distinct phase transitions and structural alterations under various temperature conditions for these two photothermal materials, providing valuable insights into the factors influencing water transportation and evaporation rates.
Keyphrases
- reduced graphene oxide
- carbon nanotubes
- metal organic framework
- raman spectroscopy
- transition metal
- oxide nanoparticles
- photodynamic therapy
- risk assessment
- magnetic resonance imaging
- mass spectrometry
- dna methylation
- genome wide
- single molecule
- endothelial cells
- contrast enhanced
- human health
- crystal structure
- stress induced