화학공학소재연구정보센터
Fuel, Vol.149, 174-183, 2015
Supramolecular pairing among heteroaromatic compounds and the cationic surfactant C(12)TAC
Ion-dipole pair formations driven by supramolecular interactions between the dodecyltrimethylammonium chloride (C(12)TAC) cationic surfactant and either 1-naphthol (NAP), quinoline (QN) or benzothiophene dipolar molecules, which model heteroaromatic ring groups displayed by asphaltenes and resins contained in heavy Mexican crude oils, were theoretically and experimentally analyzed. Theoretical studies on supramolecular interactions, in vacuum and chloroform environment, were performed via Density Functional Theory (DFT) approach. Interaction energies, screening charge densities (SCDs) and molecular orbitals for ion-dipole pairs, reveal that the strongest supramolecular interaction shown by the C(12)TAC:NAP complex is due to fully matching among charge-donor and charge-acceptor SCD peaks of C(12)TAC and NAP, respectively, overriding the interaction among C(12)TAC and the most-dipolar molecule, QN. The supramolecular synthesis of the NAP:C(12)TAC ion-dipole pairs were carried out, and then C-13 NMR chemical shifts were measured relative to the standard tetramethylsilane, confirming the supramolecular complex formation through the position difference of the carbon signals between pure and assembled NAP. It was found that carbon-signal assignment, performed through a theoretical-experimental data correlation, is best achieved when conformations of C(12)TAC and NAP molecules, as well of their C(12)TAC:NAP complex, are obtained in chloroform, in which NMR measurements were done, instead of vacuum. (C) 2014 Elsevier Ltd. All rights reserved.