Evidence of surfactant sub-monolayer adsorption at the air/water interface provided by laser scattering measurements of ultrafine gas bubbles

Surfactants are critical to many areas thanks to their characteristic adsorption property and surface activities; therefore, the understanding of their adsorption behaviors at interfaces is highly desirable. Typically, the adsorption of surfactants at the air/water interface has been interpreted bas...

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Veröffentlicht in:	New journal of chemistry 2021-08, Vol.45 (31), p.14149-14157
Hauptverfasser:	Phan, An Hoang Thien, Le, Khoa Cong Minh, Le, Thi Ho, Nguyen, Anh Van, Nguyen, Khoi Tan
Format:	Artikel
Sprache:	eng
Schlagworte:	Adsorption Bubbles Interfaces Micelles Monolayers Scattering Sodium dodecyl sulfate Surface chemistry Surfactants Ultrafines
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creator	Phan, An Hoang Thien Le, Khoa Cong Minh Le, Thi Ho Nguyen, Anh Van Nguyen, Khoi Tan
description	Surfactants are critical to many areas thanks to their characteristic adsorption property and surface activities; therefore, the understanding of their adsorption behaviors at interfaces is highly desirable. Typically, the adsorption of surfactants at the air/water interface has been interpreted based on monolayer models. However, recent studies have controversially proposed that there exists sub-monolayer adsorption underneath the air/water interface at surfactant concentrations well below its critical micelle concentration. In this report, we provide several pieces of experimental evidence to validate the presence of such sub-monolayer adsorption through laser scattering experiments on sodium dodecyl sulfate (SDS) adsorption at the air/water interfaces of ultrafine gas bubbles. In addition, by employing the calculation of the total surface area and Mie cross section, the Gibbs model was demonstrated to be inappropriate for SDS adsorption in bubble enriched solutions. Also, sum-frequency generation vibrational spectroscopy further reinforced the existence of the sub-adsorption layer instead of an adsorption monolayer. We believe that this work provides strong evidence supporting the existence of sub-monolayer adsorption which can be combined with other intrinsic surface-sensitive techniques to elucidate this phenomenon at the air/water interface. As the SDS concentration increases in bubble rich solutions, the surfactant layer alters its size and refractive index. The scattered light enhancement and SFG signal cancellation prove that sub-monolayer adsorption exists at the air/water interface.
doi_str_mv	10.1039/d1nj02802b
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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Adsorption Bubbles Interfaces Micelles Monolayers Scattering Sodium dodecyl sulfate Surface chemistry Surfactants Ultrafines
title	Evidence of surfactant sub-monolayer adsorption at the air/water interface provided by laser scattering measurements of ultrafine gas bubbles
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