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Carbon-GO Composites with Preferential Water versus Ethanol Uptake.

Li Zhi GuanJulian PatiñoCarlos Cuadrado-ColladosAitana TamayoMaría C GutiérrezMaría L FerrerJoaquín Silvestre-AlberoFrancisco Del Monte
Published in: ACS applied materials & interfaces (2019)
The elimination of small amounts of water from alcohols is by no means a trivial issue in many practical applications like, for instance, the dehumidification of biocombustibles. The use of carbonaceous materials as sorbents has been far less explored than that of other materials because their hydrophobic character has typically limited their water uptake. Herein, we designed a synthetic process based on the use of eutectic mixtures that allowed the homogeneous dispersion of graphene oxide (GO) in the liquid containing the carbon precursor, e.g., furfuryl alcohol. Thus, after polymerization and a subsequent carbonization process, we were able to obtain porous carbon-GO composites where the combination of pore diameter and surface hydrophilicity provided a remarkable capacity for water uptake but extremely low methanol and ethanol uptake along the entire range of relative pressures evaluated in this work. Both the neat water uptake and the uptake difference between water and either methanol or ethanol of our carbon-GO composites were similar or eventually better than the uptake previously reported for other materials, also exhibiting preferential water-to-alcohol adsorption, e.g., porous coordination polymers, metal-organic frameworks, polyoxometalates, and covalent two-dimensional nanosheets embedded in a polymer matrix. Moreover, water versus alcohol uptake was particularly remarkable at low partial pressures in our carbon-GO composites.
Keyphrases
  • metal organic framework
  • ionic liquid
  • aqueous solution
  • mass spectrometry
  • gold nanoparticles
  • risk assessment
  • alcohol consumption