Effect of Degumming Duration on the Behavior of Waste Filature Silk-Reinforced Wheat Gluten Composite for Sustainable Applications

Bhowmik, Papiya; Kant, Ravi; Singh, Harpreet

doi:10.1021/acsomega.2c05963

Cited by 3 publications

References 46 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

Fine Structural Analysis of Degummed Fibroin Fibers Reveals Its Superior Mechanical Capabilities

Eliaz,

Kellersztein,

Miali

et al. 2024

ChemSusChem

View full text Add to dashboard Cite

Silk fibers constitute a class of protein building blocks capable of functionalization and reprocessing into various material formats. The properties of these fibers are typically affected by the intense thermal treatments needed to remove the sericin gum coating layer. Additionally, their mechanical characteristics are often misinterpreted by assuming the cross‐sectional area is a perfect circle. The thermal treatments impact not only the mechanics of the fibers but also the structure of the resolubilized protein, thereby limiting the performance of the resulting silk‐based materials. To mitigate these limitations, we explored varying alkali conditions at low temperatures for surface treatment, effectively removing the sericin gum layer while preserving the molecular structure of the fibroin protein, thus, maintaining the hierarchical integrity of the exposed fibroin microfiber core. The precise determination of the initial CSA of the asymmetrical silk fibers led to a comprehensive analysis of their mechanical properties. Our findings indicate that the alkali surface treatment raised the Young’s modulus and tensile strength by increasing the fibers’ crystallinity by approximately 40% and 50%, respectively, without compromising their strain. We have shown that this treatment facilitated further production of high‐purity soluble silk with rheological and self‐assembly characteristics comparable to those of native silk.

show abstract