Subphase pH induced monolayer to multilayer collapse of fatty acid Salt Langmuir monolayer at lower surface pressure

Subphase pH induced monolayer to multilayer collapse at very low surface pressure of barium stearate Langmuir monolayer has been confirmed from the surface pressure versus specific molecular area (pi-A) isotherms, X-ray reflectivity (XRR) and atomic force microscopy (AFM) studies. From the pi-A isotherms it is clear that stearic acid molecules form a monolayer on the water surface in the presence of Ba2+ ions at pH approximate to 5.5 (low) and approximate to 6.8 (moderate) and remain as a monolayer before collapse pressure (pi(c) = 55 mN/m). However, at high subphase pH (approximate to 9.5), 2D -3D structural transition starts to occur from the very low surface pressure as indicated by the pi-A isotherm and is verified by both XRR and AFM as the barium stearate multilayer structure deposits in the single up stroke of hydrophilic Si substrate at pi = 25 mN/m. Subphase pH induced monolayer to multilayer formation at such lower surface pressure is unusual. Fourier transform infrared spectroscopy results confirm that the formation of bidentate chelate coordination in the metal containing headgroup is the reason for such monolayer to multilayer transition. Relatively longer chain fatty acid molecules like arachidic and behenic acids do not show such type of monolayer collapse. (C) 2015 Elsevier B.V. All rights reserved.