Albeit largely studied, the interfacial restructuring that governs emulsion breakdown remains poorly understood. Here, we use neutron reflectometry to probe the structure of thermo-responsive microgel monolayers formed either above the volume phase transition temperature or collapsed in situ after adsorption. We find that the thermal history of the microgel critically affects the monolayer architecture, particularly the particle protrusion into the air phase. These insights reveal a pathway-dependent mechanism that governs microgel behavior at interfaces, underpinning the design of next-generation responsive emulsions and interfacial materials.
Swelling-state-dependent structure of spread microgel monolayers
Gerelli, Y.
Secondo
;
2026
Abstract
Albeit largely studied, the interfacial restructuring that governs emulsion breakdown remains poorly understood. Here, we use neutron reflectometry to probe the structure of thermo-responsive microgel monolayers formed either above the volume phase transition temperature or collapsed in situ after adsorption. We find that the thermal history of the microgel critically affects the monolayer architecture, particularly the particle protrusion into the air phase. These insights reveal a pathway-dependent mechanism that governs microgel behavior at interfaces, underpinning the design of next-generation responsive emulsions and interfacial materials.| File | Dimensione | Formato | |
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Kratzenberg2026_OA.pdf
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Descrizione: Swelling-state-dependent structure of spread microgel monolayers
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