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Abstract
Adsorption behavior was quantified with pure ethoxylated nonionic surfactants onto different polymeric surfaces (hydrophilic cotton and hydrophobic polyester) and model hydrophilic gold surface. The polymer materials used for the study were characterized using SEM. The role of ethylene oxide group variation in surfactant-polymer interaction was established using pure surfactant with the same alkyl chain length but varying ethoxylate chain lengths. It was observed that surfactant with more ethylene oxide groups per molecule, being more hydrophilic, interacts favorably with cotton in the hydrophobic siloxane solvent environment. The adsorption of the pure surfactants on model gold surface from hydrophobic solvent and water was also established using the quartz crystal microbalance with dissipation monitoring (QCM-D) system. Effect of ethylene oxide chain length and surfactant concentration on the extent of adsorption was quantified. At the gold-water interface, the plateau adsorption for C12 E3 (15.9 × 10−6 mole/m2) is about four times higher than for C12E8. An opposite trend was observed for adsorption of the surfactants on gold in the hydrophobic D5 environment. Information about thickness, adsorption and desorption kinetics, and structure of adsorbed layer was obtained from the QCM-D frequency-dissipation data. The study is an important contribution towards fundamental understanding of applications involving the use of ethoxylated nonionic surfactants.
Acknowledgments
The QCM work was supported by the NSF-EPSCoR program and Center for Nanoscale Science and Engineering (CeNSE). RCTF provided financial support for A. Ladhe. The authors thank John May from ERTL (Environmental Research Training Lab) for the technical support in GC analysis.
Notes
The CMCs of the surfactants in D5 are not known. The CMC of C12E3 in benzene is 4 mM (Caruso et al., Citation1996). The CMCs of these surfactants in D5 may be of the same order of magnitude.
The listed Qmax values are for 0.79, 0.62, and 0.46 mM concentrations of C12E3, C12E5, and C12E8, respectively (250 mg/L).
a Data calculated using Figure .
b Data calculated using Figure .
Ceq = 250 mg/L, i.e., 0.79 mM C12E3, 0.62 mM C12E5, and 0.46 mM C12E8. Flow rate was maintained at 0.1 mL/min during adsorption and desorption experiments.
a The regression coefficients R2 are calculated for each set containing at least 500 data points.