Natural Biopolymer-hydrogels Nanofibers for Antibacterial Applications

IF 1.5 4区 材料科学 Q3 ENGINEERING, MECHANICAL
S. Habeeb, Mushreq Kareem Abdulkadhim
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引用次数: 0

Abstract

This study used a suitable solvent such as deionized water and aqueous acetic acid to dissolve completely polymer blends such as gelatin: chitosan: pullulan (G: CS: PUL) with mixing ratios of 80:10:10, 60:20:20, 40:30:30, 20:40:40 respectively. The properties of natural polymer mixtures, viscosity, surface tension, and electrical conductivity were examined, and the fiber diameter and nanofiber diameters distribution were measured. Increasing the gelatin content from 20% to 80% in the G: CS: PUL increases the properties of biopolymer solutions, such as viscosity, surface tension, and electrical conductivity 157%, 14%, and 37%, respectively. In addition, increasing the gelatin content reduces the contact angle by 55%. In other words, the average diameter of the nanofibers increased from 91.177 ± 27.162 to 212.46 ± 67.91 nm with the increase of the gelatin content by 40 % - 100% in the blends and obtaining uniform fibers without beads, which enhanced the ability of nanofibers for releasing into the aqueous media and enhancing their use in packaging food such as (80:10:10 and 60:20:20). Moreover the blend ratio 60:30:30 (G:CS: PUL) had better resistance to bacterial growth, the inhibition zone diameters were 26 and 23 mm for E. coli and S. aureus and had better average crystalline size and crystallinity.
抗菌应用的天然生物聚合物水凝胶纳米纤维
本研究采用去离子水和醋酸等合适的溶剂,分别以80:10:10、60:20:20、40:30:30、20:40:40的混合比例,将明胶、壳聚糖、普鲁兰(G: CS: PUL)等聚合物共混物完全溶解。测试了天然聚合物混合物的性能、粘度、表面张力和电导率,并测量了纤维直径和纳米纤维直径分布。将G: CS: PUL中明胶的含量从20%增加到80%,生物聚合物溶液的粘度、表面张力和导电性等性能分别提高了157%、14%和37%。此外,增加明胶含量可使接触角降低55%。也就是说,当明胶含量增加40% ~ 100%时,纳米纤维的平均直径从91.177±27.162 nm增加到212.46±67.91 nm,且纤维均匀无珠,这增强了纳米纤维向水介质释放的能力,提高了纳米纤维在(80:10:10和60:20:20)等食品包装中的应用。混合比60:30:30 (G:CS: PUL)对细菌生长的抑制效果较好,对大肠杆菌和金黄色葡萄球菌的抑制区直径分别为26和23 mm,平均晶粒尺寸和结晶度较好。
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来源期刊
CiteScore
3.00
自引率
0.00%
发文量
30
审稿时长
4.5 months
期刊介绍: Multiscale characterization, modeling, and experiments; High-temperature creep, fatigue, and fracture; Elastic-plastic behavior; Environmental effects on material response, constitutive relations, materials processing, and microstructure mechanical property relationships
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