Mixing Behavior in Binary Anionic Gemini Surfactant–Perfluorinated Fatty Acid Langmuir Monolayers

Rehman, Jeveria; Sowah-Kuma, David; Stevens, Amy L.; Bu, Wei; Paige, Matthew F.

doi:10.1021/acs.langmuir.7b02585

Cited by 9 publications

(22 citation statements)

References 44 publications

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“…Resulting electron density profiles were fit using a standard two‐slab model in which one slab of electron density corresponds to the monolayer head group and the second slab to the tail group; fitting data are summarized in Table 3. The overall film thickness and slab‐fitting results for the monolayer on pure water were comparable with the previously measured values for Ace(18)‐2‐Ace(18), and the tail layer length was greater than that of the shorter Ace(12)‐2‐Ace(12) surfactant, as expected (Rehman et al, 2017b, 2019). The key observation from film thickness measurements was that a small (~ 4 Å) but significant decrease in tail layer length was observed when switching to an Fe 3+ ‐enriched subphase.…”

Section: Resultssupporting

confidence: 89%

Iron Binding in an Ethylenediaminetetracetic Acid‐Based Gemini Surfactant Monolayer Film

Sowah-Kuma

Rehman

Yeboah

et al. 2021

J Surfact & Detergents

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The ability of Fe3+ to bind to Langmuir monolayers of an N, N, N′, N′‐dialkyl‐N, N′‐diacetate ethylenediamine gemini surfactant has been explored. Fe3+ in the subphase resulted in the formation of compacted, liquid‐phase monolayers with a mesh‐like morphology at the micron length scale in comparison with expanded, unstructured liquid‐phase monolayers in the absence of iron. The response of the monolayer to subphase Fe3+ was different from that reported for Na+ and Ca2+ for an affiliated, shorter‐tail gemini surfactant. Combined surface potential and X‐ray reflectivity measurements indicated that Fe3+ induced minor conformational changes in the monolayer, suggesting ionic association with the head group. Direct evidence for the binding of iron was provided by total reflection X‐ray fluorescence measurements, which revealed that multiple ions were associated with each head group as opposed to chelating with 1:1 stoichiometry as observed with bulk ethylenediaminetetracetic acid. Cumulative data suggest the adsorption of Fex(OH)y(3x−y)+ complexes with the monolayer surface as has been reported with other charged and uncharged monolayers.

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Section: Resultssupporting

confidence: 89%

Iron Binding in an Ethylenediaminetetracetic Acid‐Based Gemini Surfactant Monolayer Film

Sowah-Kuma

Rehman

Yeboah

et al. 2021

J Surfact & Detergents

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“…One of the main aspects of these mixtures is the miscibility and phase separation. Recent articles on mixed fatty acids systems are those of [23][24][25][26][27][28][29][30][31][32]. Furthermore, since fatty acids or phospholipids usually present unsaturations in the hydrocarbon chains, the study of mixtures of saturated and unsaturated compounds is of interest.…”

Section: Introductionmentioning

confidence: 99%

Thermodynamic Behaviour of Mixed Films of an Unsaturated and a Saturated Polar Lipid. (Oleic Acid-Stearic Acid and POPC-DPPC)

Torrent‐Burgués

2018

Colloids and Interfaces

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Mixed fatty acids or mixed phospholipids systems with saturated-unsaturated hydrocarbon chains are of biological interest. In this work, the monolayers of oleic acid-stearic acid (OA-SA) and palmitoyloleoylphosphatidylcholine-dipalmitoylphosphatidylcholine (POPC-DPPC) have been studied. From the surface pressure-area isotherms, elastic modulus values and virial equation coefficients can be obtained. Thermodynamic treatment also yields excess (G E ) and mixing (∆G mix ) free energies. Results indicate positive G E values, that is, molecular interactions in the mixed films are less favourable, due to the presence of unsaturation; however, the mixture is slightly favourable due to the entropic factor that affords positive ∆G mix values. For the OA-SA system, a high SA content and surface pressure facilitate the phase separation, even though a certain miscibility between both components still remains. For the POPC-DPPC system, the most favourable mixing conditions occur for X POPC ≈ 0.4. For these mixed systems, the values of the elastic modulus are more similar to those of more fluid components (OA or POPC); analysis of the virial coefficients shows that the b 1 virial coefficient values lie between those of the individual components and are higher than values suitable for an ideal mixing.

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“…Perfluorinated surfactant monolayers are particularly well-suited to diffraction experiments because of their large electron density and, in the case of perfluorinated fatty acids, of the nature of their crystalline packing and reflection degeneracy. GIXD experiments from a perfluorotetradecanoic acid typically shows a single, strong diffraction peak in a GIXD contour plot ( q z intensity vs q xy ), indicating a normal orientation of the perfluorinated molecules to the water subphase and a hexagonal lattice packing. ,,, For hydrocarbon fatty acids, both in-plane and out-of-plane scattering can be obtained, which shows that the hydrocarbon molecules are tilted to the water subphase at various angles depending on the surface pressure and composition in the subphase . On the other hand, in the case of semifluorinated alkane (SFA), two Brag Peaks can be observed at q xy , which were associated with hexagonal packing of the fluorocarbon and hydrocarbon blocks, respectively .…”

Section: Monolayer Characterization Methodsmentioning

confidence: 99%

Section: Morphology Study Of Hydrocarbon–fluorocarbon Mixed Monolayersmentioning

confidence: 99%

“…To date, we have investigated mixing for two gemini variants, Ace(12)-2-Ace (12) and Ace(18)-2-Ace (18), with C13F. 37,24 For the former, the surfactant tail lengths were considerably shorter than the fatty acids we studied previously and thus we hypothesized that Ace(12)-2-Ace( 12) would be miscible with C13F; likewise, it was hypothesized that miscibility would decrease with the longer tail chain in Ace(18)-2-Ace (18).…”

Section: ■ Morphology Study Of Hydrocarbon−fluorocarbon Mixed Monolayersmentioning

confidence: 99%

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Pattern Formation in Phase-Separated Langmuir and Langmuir Monolayer Films

Yan

Paige

2021

Langmuir

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Mixed monolayer films comprising hydrogenated and fluorinated surfactants can undergo phase separation to produce interfaces with diverse structures at the micrometer and nanometer scales. This review discusses our progress over the past decade to probe the relationship that exists between the molecular structure of the surfactants that comprise the films and the overall patterns formed in the monolayers. We review two main classes of mixed perfluorocarbon–hydrocarbon surfactant systems, including fatty acids and a recently developed family of EDTA-based gemini surfactants. In addition to summarizing the state-of-the-art of this field, the key scientific questions and relationships that require further elucidation are discussed, along with directions for continuing research into this fascinating area of research.

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Mixing Behavior in Binary Anionic Gemini Surfactant–Perfluorinated Fatty Acid Langmuir Monolayers

Cited by 9 publications

References 44 publications

Iron Binding in an Ethylenediaminetetracetic Acid‐Based Gemini Surfactant Monolayer Film

Iron Binding in an Ethylenediaminetetracetic Acid‐Based Gemini Surfactant Monolayer Film

Thermodynamic Behaviour of Mixed Films of an Unsaturated and a Saturated Polar Lipid. (Oleic Acid-Stearic Acid and POPC-DPPC)

Pattern Formation in Phase-Separated Langmuir and Langmuir Monolayer Films

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