Stability of colloidal gas aphrons based on polymer-surfactant formulations and molecular dynamics insights

Stability of colloidal gas aphrons based on polymer-surfactant formulations and molecular dynamics insights

Abstract Colloidal gas aphrons (CGAs) are promising fluids for environmental remediation due to their stability, high viscosity, and effective gas transport. However, previous studies have been limited by narrow concentration ranges, leaving key mechanisms behind bubble stability insufficiently unde...

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Main Authors: Ayaulym Amankeldiyeva, Samal Kaumbekova, Aigerim Khalidulliyeva, Zhanat Salimova, Aizhan Ibrayeva, Maxime Cochennec, Stéfan Colombano, Yerlan Amanbek, Yanwei Wang, Sagyn Omirbekov
Format: Article
Language:English
Published: Nature Portfolio 2025-07-01
Series:Scientific Reports
Subjects:
Colloidal gas aphrons
Surfactant
Polymer
Stability
Image analysis
Molecular dynamics simulation
Online Access:https://doi.org/10.1038/s41598-025-08100-4
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Summary:Abstract Colloidal gas aphrons (CGAs) are promising fluids for environmental remediation due to their stability, high viscosity, and effective gas transport. However, previous studies have been limited by narrow concentration ranges, leaving key mechanisms behind bubble stability insufficiently understood. This study systematically explores bubble stability across a wide range of xanthan gum (XG) and sodium dodecyl sulfate (SDS) concentrations (1–10× CMC and 1000–10,000 ppm) using advanced AI-assisted image analysis and molecular dynamics (MD) simulations. AI-enhanced microscopy enabled precise quantification of bubble size and morphology, while MD provided molecular-level insights into surfactant-polymer interactions at bubble interfaces. Results showed optimal CGA stability at specific surfactant-polymer ratios, significantly reducing gas diffusion and bubble coalescence. These integrated experimental and computational methods offer valuable guidelines for designing robust CGA-based remediation fluids.
ISSN:2045-2322

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