Understanding the Different Steps of Surfactant Adsorption at the Oil–Water Interface with Second Harmonic Generation

Abstract: Probing the behavior of surfactants at oil–water interfaces is crucial to understand their functionality. In this work, we present detection of the adsorption of several common surfactants at the hexadecane–water interface with second harmonic generation (SHG) and zeta potential measurements. Water molecules were used as reliable indicators of the adsorption of ionic surfactants in SHG analysis. With the change of the interfacial potential monitored by both SHG and zeta potential measurements, unique informati… Show more

“…The geometric constrains [58−60] from the continuous order-disorder transition of the spatial conformation of the interfacial carboxyl chains sterically hinder the electrostatic attraction interaction between the positively charged D289 molecules and the negatively charged surface of PDAs vesicles due to the decrease in the adsorption density of D289 molecules at the surface of PDAs vesicles with the increased UV irradiation. Besides, the chain-chain interaction is known to significantly influence the molecular energetics at the interfaces [40,44]. The interaction between the D289 molecules and the carboxyl chains of PDAs may be weakened by the ragged distortion and interleaving of the carboxyl chains in chromatic transitions from monomer to blue-to-purple-to-red forms as shown in FIG.…”

Order-Disorder transition of carboxyl terminated chains in polydiacetylenes vesicles probed by second harmonic generation and two-photon fluorescence

“…The geometric constrains [58−60] from the continuous order-disorder transition of the spatial conformation of the interfacial carboxyl chains sterically hinder the electrostatic attraction interaction between the positively charged D289 molecules and the negatively charged surface of PDAs vesicles due to the decrease in the adsorption density of D289 molecules at the surface of PDAs vesicles with the increased UV irradiation. Besides, the chain-chain interaction is known to significantly influence the molecular energetics at the interfaces [40,44]. The interaction between the D289 molecules and the carboxyl chains of PDAs may be weakened by the ragged distortion and interleaving of the carboxyl chains in chromatic transitions from monomer to blue-to-purple-to-red forms as shown in FIG.…”

Order-Disorder transition of carboxyl terminated chains in polydiacetylenes vesicles probed by second harmonic generation and two-photon fluorescence

“…The stabilizing effect of oil-in-water emulsions at concentrations near the CMC could be attributed to the ability of longchain alkanes in the oil to associate and form mixed monolayers with the adsorbed ionic surfactant at the oil-water interface. [45][46][47] Therefore, the adsorption tendency is favoured till the CMC concentration is reached, following which the micellization tendency in the bulk oil phase is favoured. The emulsions formed in the presence of 5% oil (heptane, decane and dodecane) were found to remain stable even aer 24 h visual observation, as evident from Fig.…”

Synthesis, characterization, physical and thermodynamic properties of a novel anionic surfactant derived fromSapindus laurifolius

“…At first, the rheological properties of the separated components were investigated over time (TS1). When only OA was present, spontaneous adsorption of the amphiphilic OA at the W/O interface occured, 32,36 although values of the interfacial complex modulus (|G i *|) are below the limit of detectability of the instrument (Fig. 2a).…”

Charge-driven interfacial gelation of cellulose nanofibrils across the water/oil interface