Abstract

A solution of the water-insoluble quaternary alkylammonium salt with the long hydrocarbon chain, CH3(CH2)29N(CH3)3·I (C30TMA+·I−), was spread on water and clay mineral (montmorillonite) dispersion surfaces to investigate film formation behavior of the amphiphilic ammonium cation by π-A isotherm curve measurements, AFM observation, IR spectroscopy, and XRD measurements. The C30TMA+ cations formed a stable Langmuir film on the water surface. The Langmuir films were deposited on a substrate to fabricate the multilayer, in which the cations stood nearly perpendicularly to the substrate with the all-trans conformation and they were packed closely with two-dimensional ordering. The negatively charged clay-mineral-layers were adsorbed on a floating Langmuir film of the cation at an air-clay mineral dispersion interface. On the dilute clay mineral dispersion surface, some parts of the floating film of the cation were adsorbed by the clay-mineral-layers and the C30TMA+ cations stood on the clay-mineral-layers. As the clay mineral concentration in the dispersion increased, the π-A isotherm curve for the C30TMA+ cation at the air-dispersion interface shifted to the larger molecular area side with high collapse pressures (40–50mNm−1). Almost whole area of the floating film was covered with the clay-mineral-layers on the concentrated dispersion surface, and the cations stood nearly perpendicularly on the clay-mineral-layers.

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