AI Article Synopsis
- The study focused on creating a novel bioactive nanofiber using ethyl cellulose, soy protein isolate, and bitter orange peel extract through electrospinning technology.
- The electrospun nanofibers (NFs) were tested in different weight ratios, with the composition ES11 (1:1 ratio) showing optimal properties such as uniform morphology, high porosity, and excellent thermal stability.
- Incorporating 20% bitter orange peel extract enhanced the NFs' antioxidant activity significantly and demonstrated antibacterial effects against harmful bacteria like S. aureus and E. coli, highlighting its potential for improving food safety and quality.
Article Abstract
The present work was aimed to produce a novel bioactive nanofiber (NFs) based on Ethyl cellulose (EC), Soy protein isolated (SPI), and containing Bitter orange peel extract (BOPE) by electrospinning technology. The EC/SPI NFs were formulated with different weight ratios of 1:1, 2:1, and 1:2 denoted as ES11, ES21, and ES12, respectively, and investigated by several analyses. Based on the obtained results, the maximum hydrogen interactions between these two polymers, ES11 NFs offered a uniform morphology without bead with the diameter of 185.33 nm as a result of the compatibility of the polymer solutions of EC and SPI. Moreover, appropriate thermal stability was presented along with more porosity (78%), maximum water vapor transmission rate (657 g/m2.24h), good tensile stress (6.12 MPa), and acceptable water contact angel (82.3°). Therefore, ES11 NFs were selected as the optimal sample for incorporation of the BOPE as the antibacterial and antioxidant agent. According to the antioxidant activity test, the highest concentration (20% wt) of this extract increased the antioxidant activity of NF around 64.7% and also inhibited the growth of pathogenic bacteria (S. areus, and E. coli). Therefore, the ES11 electrospun NFs containing 20% BOPE can be a beneficial system to increase the safety and quality of foods.
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| http://dx.doi.org/10.1016/j.ijbiomac.2021.10.182 | DOI Listing |
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