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Interpenetrated biosurfactant-silk fibroin networks – a SANS study

Abstract : Silk fibroin (SF) based hydrogels have been exploited for years for their inherent biocompatibility and favorable mechanical properties which makes them interesting for biotechnology applications. In this study we investigate silk based composite hydrogels where pH-sensitive, anionic biosurfactant assemblies (sophorolipids SL-C18:1 and SL-C18:0), are employed to improve the present properties of SF. Results suggest that the presence of SL surfactant assemblies leads to faster gelling of SF by accelerating the refolding from random coil to-sheet as shown by infrared and UV-visible spectroscopy. Small angle neutron scattering (SANS) including contrast matching studies show that SF and SL assemblies coexist in a fibrillary network that is, in the case of SL-C18:0, interpenetrating. The resulting overall network structure in composite gels is slightly more affected by SL-C18:1 than by SL-C18:0, whereas the structure of both SF and surfactant assemblies remains unchanged. No disassembly of SL surfactant structures is observed, which gives a new perspective on SF-surfactant interactions. The hydrophobic effect within SF is favored in presence of SL, leading to faster refolding of SF into-sheet conformation. The presented composite gels, being an interpenetrating network of which one compound (SL-C18:0) can be tweaked by pH, open an interesting option towards improved workability and stimuli responsive mechanical properties of SF based hydrogels with possible applications in controlled cell culture and tissue engineering or drug delivery. The presented SANS analysis approach has the potential to be expanded to other protein-surfactant systems and composite hydrogels.
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Submitted on : Monday, March 1, 2021 - 12:54:28 PM
Last modification on : Thursday, May 27, 2021 - 3:07:58 AM
Long-term archiving on: : Sunday, May 30, 2021 - 7:25:07 PM


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Andrea Lassenberger, Anne Martel, Lionel Porcar, Niki Baccile. Interpenetrated biosurfactant-silk fibroin networks – a SANS study. Soft Matter, Royal Society of Chemistry, 2021, 17 (8), pp.2302-2314. ⟨10.1039/D0SM01869D⟩. ⟨hal-03147255⟩



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