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| Hauptseite > Publikationsdatenbank > Photo-Responsive Control of Adsorption and Structure Formation at the Air–Water Interface with Arylazopyrazoles |
| Hauptseite > Publikationsdatenbank > Photo-Responsive Control of Adsorption and Structure Formation at the Air–Water Interface with Arylazopyrazoles |
| Journal Article | FZJ-2024-02405 |
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2023
ACS Publ.
Washington, DC
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Please use a persistent id in citations: doi:10.1021/acs.langmuir.3c00294 doi:10.34734/FZJ-2024-02405
Abstract: Smart interfaces that are responsive to external triggers such as light are of great interest for the development of responsive or adaptive materials and interfaces. Using alkyl-arylazopyrazole butyl sulfonate surfactants (alkyl-AAP) that can undergo E/Z photoisomerization when irradiated with green (E) and UV (Z) lights, we demonstrate through a combination of experiments and computer simulations that there can be surprisingly large changes in surface tension and in the molecular structure and order at air–water interfaces. Surface tensiometry, vibrational sum-frequency generation (SFG) spectroscopy, and neutron reflectometry (NR) are applied to the study of custom-synthesized AAP surfactants with octyl- and H-terminal groups at air–water interfaces as a function of their bulk concentration and E/Z configuration. Upon photoswitching, a drastic influence of the alkyl chain on both the surface activity and the responsiveness of interfacial surfactants is revealed from changes in the surface tension, γ, where the largest changes in γ are observed for octyl-AAP (Δγ ∼ 23 mN/m) in contrast to H-AAP with Δγ < 10 mN/m. Results from vibrational SFG spectroscopy and NR show that the interfacial composition and the molecular order of the surfactants drastically change with E/Z photoisomerization and surface coverage. Indeed, from analysis of the S–O (head group) and C–H vibrational bands (hydrophobic tail), a qualitative analysis of orientational and structural changes of interfacial AAP surfactants is provided. The experiments are complemented by resolution of thermodynamic parameters such as equilibrium constants from ultra-coarse-grained simulations, which also capture details like island formation and interaction parameters of interfacial molecules. Here, the interparticle interaction (“stickiness”) and the interaction with the surface are adjusted, closely reflecting experimental conditions.
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