Issue 23, 2020

Adsorption behaviors of branched cationic gemini surfactants and wettability in quartz–solution–air systems

Abstract

The adsorption and wetting on quartz surfaces by aqueous solutions of xylyl-substituted biquaternary ammonium salt gemini surfactants with different spacer groups (C3 and C6), have been investigated. The interfacial properties of surfactant solutions such as contact angle, adhesional tension (γLV cos θ), quartz–water interfacial tension (γSL) as well as adhesion work (WA) have been estimated. The obtained results show that C3 and C6 have similar adsorption behavior on quartz surfaces. Before critical micelle concentration (cmc) is reached, the contact angles of gemini surfactants slowly increase with the increasing concentration, and the adsorption amount at the water–air interface is almost the same as those at a quartz–water interface. After reaching cmc, the gemini surfactant Cn molecules form a more compact adsorption film through bending the flexible spacer chain, instead of forming a bi-layer. As a result, a further increase in quartz–liquid interfacial tension (γSL) and a consequent increase in contact angle have been observed after cmc. Gemini C6 shows a stronger ability towards hydrophobic modification at a quartz surface than C3, demonstrating the contribution of the longer methylene spacer to the hydrophobic modification of the quartz surface.

Graphical abstract: Adsorption behaviors of branched cationic gemini surfactants and wettability in quartz–solution–air systems

Article information

Article type
Paper
Submitted
17 Apr 2020
Accepted
13 May 2020
First published
14 May 2020

Soft Matter, 2020,16, 5450-5457

Adsorption behaviors of branched cationic gemini surfactants and wettability in quartz–solution–air systems

M. Gao, X. Wang, W. Lv, Z. Zhou, Q. Zhang, D. Ma, H. Wang, F. Yan, L. Zhang and L. Zhang, Soft Matter, 2020, 16, 5450 DOI: 10.1039/D0SM00689K

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