Starch/tea polyphenols nanofibrous films for food packaging application: From facile construction to enhance mechanical, antioxidant and hydrophobic properties

Starch based food packaging has been receiving increasing attention. However, the inherent poor properties of starch restrict its practical applications in the versatile material science field. In this study, a fast, simple, and environmentally friendly route to construct polyfunctional starch/tea polyphenols nanofibrous films (STNFs) by one-step temperature-assisted electrospinning was developed. The effects of introduction of tea polyphenols (TP) on the mechanical and antioxidant activity of STNFs were comprehensively investigated. Results of ABTS.+ free radical scavenging assay showed that the antioxidant activity of STNFs was endowed by addition of TP with optimum mechanical properties confirmed by tensile test. More interestingly, the hydrophobicity of STNFs was improved dramatically with increasing cross-linking time as indicated by water contact angle (WCA) measurement showing no effect on the antioxidant activity of the films. The results of this work offer a major step forward to promote functional starch-based materials for sustainable application in food packaging.

Automated summary

This study developed a fast, simple, and environmentally friendly method to construct polyfunctional starch/tea polyphenols nanofibrous films (STNFs) using temperature-assisted electrospinning. The addition of tea polyphenols (TP) was found to enhance the antioxidant activity of STNFs without affecting the mechanical properties, while also improving the hydrophobicity of the films. These results represent a significant advancement in promoting the sustainable application of functional starch-based materials in food packaging.