Characterization of n-hexadecylalkylamine-intercalated graphite oxides as sorbents
2003; Elsevier BV; Volume: 41; Issue: 8 Linguagem: Inglês
10.1016/s0008-6223(03)00079-4
ISSN1873-3891
AutoresY. Matsuo, Kenji Watanabe, Tomokazu Fukutsuka, Y. Sugie,
Tópico(s)Membrane Separation and Gas Transport
ResumoAdsorption properties of graphite oxides hydrophobized by n-hexadecylamine, (C16)xGO, were investigated using pyrene molecules as a model of nonionic organic contaminants. A large quantity of pyrene (28.5 mg/g) was adsorbed from a water–ethanol mixture (1:2) containing 2 mM of pyrene when (C16)0.6GO was used. The isotherm of pyrene adsorption was better described by Freundlich equation rather than Langmuir equation, which indicated a single adsorption mechanism was involved. The change in the amount of adsorbed pyrene as a function of amine content in GO was very similar to that which occurs upon introduction of pyrene into (C16)xGO films from chloroform solution, as determined by X-ray measurements. This suggests that pyrene molecules were adsorbed not only on the outer surface but also within the interlayer space of the intercalation compound. Swelling of the intercalation compound by ethanol can render the interlayers more organophilic and make access to hexadecylamine molecules bonded to the graphite oxide layer easier for pyrene molecules, especially in (C16)xGOs with lower amine contents.
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