Effects of Ca<sup>2+</sup> Ion Condensation on the Molecular Structure of Polystyrene Sulfonate at Air–Water Interfaces

Schulze-Zachau, Felix; Bachmann, Silvia; Braunschweig, Björn

doi:10.1021/acs.langmuir.8b02631

Cited by 19 publications

(19 citation statements)

References 58 publications

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“…The dramatic changes in the bulk hydrodynamic radius are also reflected in the properties of the air–water interfaces formed from HPC solutions. Note that in aqueous foam the air–water interface and foam films (lamella) that form from two air–water interfaces separated by a thin-liquid film are major hierarchical elements that can determine foam properties 6,52. For that reason, we have additionally addressed the behavior of the latter interfaces by determining the change of the surface pressure with temperature which is depicted in Fig.…”

Section: Resultsmentioning

confidence: 99%

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Weißenborn

Braunschweig

2019

Soft Matter

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Section: Resultsmentioning

confidence: 99%

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Weißenborn

Braunschweig

2019

Soft Matter

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“…This contribution is often used to gain qualitative 48,50,51 and in some cases quantitative information [52][53][54] on the interfacial charging state:…”

Section: Vibrational Sum-frequency Generation Spectroscopymentioning

confidence: 99%

Photo-Switchable Surfactants for Responsive Air–Water Interfaces: Azo versus Arylazopyrazole Amphiphiles

et al. 2020

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Arylazopyrazoles (AAPs) as substitutes for azo derivatives have gained considerable attention due to their superior properties offering E/Z photo-isomerization with high yield. In order to compare and quantify their performance, azobenzene tetraethylammonium (Azo-TB) and arylazopyrazole tetraethylammonium (AAP-TB) bromides were synthesized and characterized in the bulk (water) using NMR spectroscopy. At the air-water interface complementary information from vibrational sum-frequency generation (SFG) spectroscopy and neutron reflectometry (NR) has revealed the effects of E/Z isomerization in great detail. In bulk water the photostationary states of >89 % for E/Z switching in both directions were very similar for the surfactants, while their interfacial behavior was substantially different. In particular, the surface excess Γ of the surfactants changed drastically between E/Z isomers for AAP-TB (maximum change of Γ: 2.15 µmol/m²); for Azo-TB the change was only moderate (maximum change of Γ: 1.02 µmol/m²). Analysis of SFG spectra revealed that strong non-resonant contributions that heterodyned the resonant vibrational bands were proportional to Γ, enabling the aromatic C-H band to be interpreted as an indicator for changes in interfacial molecular order. Close comparison of Γ from NR with the SFG amplitude from the aromatic C-H stretch as a function of concentrations and E/Z conformation revealed substantial molecular order changes for AAP-TB. In contrast, only Γ and not the molecular order varied for Azo-TB. These differences in interfacial properties are attributed to the molecular structure of the AAP center that enables favorable lateral interactions at the air-water interface, causing closed-packed interfacial layers and substantial changes during E/Z photo-isomerization.

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“…However, using the surface tension after 30 min is still a good measure for the surface activity of the samples and is a commonly used approach e. g. to establish relations between interfacial and foam properties. 4,45…”

Section: Surface Tensionmentioning

confidence: 99%

C_nTAB/polystyrene sulfonate mixtures at air–water interfaces: effects of alkyl chain length on surface activity and charging state

Schulze-Zachau

Braunschweig

2019

Phys. Chem. Chem. Phys.

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Effects of Ca²⁺ Ion Condensation on the Molecular Structure of Polystyrene Sulfonate at Air–Water Interfaces

Cited by 19 publications

References 58 publications

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Photo-Switchable Surfactants for Responsive Air–Water Interfaces: Azo versus Arylazopyrazole Amphiphiles

C_nTAB/polystyrene sulfonate mixtures at air–water interfaces: effects of alkyl chain length on surface activity and charging state

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Effects of Ca2+ Ion Condensation on the Molecular Structure of Polystyrene Sulfonate at Air–Water Interfaces

Cited by 19 publications

References 58 publications

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Hydroxypropyl cellulose as a green polymer for thermo-responsive aqueous foams

Photo-Switchable Surfactants for Responsive Air–Water Interfaces: Azo versus Arylazopyrazole Amphiphiles

CnTAB/polystyrene sulfonate mixtures at air–water interfaces: effects of alkyl chain length on surface activity and charging state

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Product

Resources

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Effects of Ca²⁺ Ion Condensation on the Molecular Structure of Polystyrene Sulfonate at Air–Water Interfaces

C_nTAB/polystyrene sulfonate mixtures at air–water interfaces: effects of alkyl chain length on surface activity and charging state