Molecular interactions of (ionic liquid butylammonium methanoate + alcohols) at several temperatures. Part II: sec-Butylammonium methanoate (S4Met)
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Tipo de produção
Artigo
Data de publicação
2023-04-05
Texto completo (DOI)
Periódico
Journal of Chemical Thermodynamics
Editor
Texto completo na Scopus
Citações na Scopus
1
Autores
HOGA, H. E.
FERNANDES, R. L.
OLIVIERI, G. V.
Ricardo Torres
Orientadores
Resumo
© 2022 Elsevier LtdVolumetric and acoustic properties were obtained by density (ρ) and speed of sound (u) experimental values for the binary liquid systems containing the protic ionic liquid (IL) sec-butylammonium methanoate (S4Met) + alcohols (ethanol, 1-propanol, 1-butanol and 1-pentanol) over the whole composition range at different temperatures (293.15–313.15) K and ambient pressure (p = 92.3 kPa). A neutralization reaction was carried out under controlled temperature to synthesize S4Met, which underwent spectroscopic analyses to guarantee its formation. All the excess properties, namely excess molar volume,VmE, excess partial molar volumes,V¯iE, and deviation in isentropic compressibility,ΔκS, presented negative values. Other volumetric properties such as partial molar volumes,V¯i, apparent molar volumes, Vϕi and infinite dilution volumes,V¯i∞, were determined. In addition to the thermodynamic approach, spectroscopy techniques essentially 1H NMR, 13C NMR, FTIR were useful in order to elucidate intermolecular interactions among the species in solutions. Lastly, the Peng-Robinson-Stryjek-Vera equation of state (PRSV EOS) was used to correlate the excess molar volumes.
Citação
HOGA, H. E.; FERNANDES, R. L.; OLIVIERI, G. V.;TORRES, R. B. Molecular interactions of (ionic liquid butylammonium methanoate + alcohols) at several temperatures. Part II: sec-Butylammonium methanoate (S4Met). Journal of Chemical Thermodynamics, v. 178, marc, 2023.
Palavras-chave
Keywords
Alcohols; Binary mixtures; Ionic liquids; Modeling; Spectroscopy; Thermodynamic properties
Assuntos Scopus
1-propanol; Acoustics property; Binary liquid systems; Excess molar volumes; Experimental values; Modeling; Protic ionic liquids; Speeds of sound (u); Thermodynamics property; Volumetric properties