3 resultados para QCT NMR
em Acceda, el repositorio institucional de la Universidad de Las Palmas de Gran Canaria. España
Resumo:
[ES]La aplicación de la espectroscopía de resonancia magnética nuclear de protón (1H-NMR) a medios acuosos se hizo posible mediante un aparato AMX 300 MHz (Bruker) a través de un programa de pulsos incluido en el propio software que controla al espectrómetro. Dado que la secuencia de pulsos habitual (PROTON) produce una señal intensa a δ 4.67 debida a la propia agua, se utilizó un programa de pulsos (protonh2o) que la elimina por completo por irradiación a una potencia hl2 de 60 dB. Esto permitió ver y medir las señales correspondientes tanto a los hidratos de carbono como a los alcanoles.
Resumo:
[EN]Here we present experimental data of different properties for a set of binary mixtures composed of water or alkanols (methanol to butanol) with an ionic liquid (IL), butylpyridinium tetrafluoroborate [bpy][BF4]. Solubility data (xIL,T) are presented for each of the mixtures, including water, which is found to have a small interval of compositions in IL, xIL, with immiscibility. In each case, the upper critical solubility temperature (UCST) is determined and a correlation was observed between the UCST and the nature of the compounds in the mixtures. Miscibility curves establish the composition and temperature intervals where thermodynamic properties of the mixtures, such as enthalpies Hm E and volumes Vm E, can be determined.
Resumo:
[EN]This work studies the binaries of 1-butyl-X-methylpyridinium tetrafluoroborate [bXmpy][BF4] (X = 2, 3, and 4) with four 1,ω-dichloroalkanes, ω = 1−4, using the results obtained for the mixing properties hE and v E at two temperatures. The three isomers of the ionic liquid (IL) are weakly miscible with the 1,ω-dichloroalkanes when ω ≥ 5 and moderately soluble for ω = 4. The vE s of all the binaries present contractive effects, v E < 0, which are more pronounced with increasing temperature; the variation in vE with ω is positive, although this changes after ω = 4 due to problems of immiscibility