基于kefiran的低温凝胶系统的可生物降解膜

Macromol Pub Date : 2022-07-13 DOI:10.3390/macromol2030021
S. Exarhopoulos, A. Goulas, G. Dimitreli
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引用次数: 3

摘要

从开非尔颗粒中分离出来的开非尔酸被用于在甘油和山梨醇等增塑剂存在的情况下制造低温薄膜。在低温薄膜的制备过程中,采用不同浓度比例的外多糖/增塑剂体系,并监测其对薄膜物理性能(薄膜厚度、含水率和溶解度)和力学性能(拉伸强度和断裂伸长率)的影响。计算了凯菲兰膜蒸汽吸附等温线,并对样品进行了热分析。用激光共聚焦扫描显微镜观察了低温膜的结构特征。低温处理和增塑剂的加入影响了kefiran薄膜的物理和机械性能以及它们的形态。随着kefiran浓度的增加,膜的厚度、含水率和抗拉强度增加,而溶解度和断裂伸长率降低。低温处理、丙酮浓度、增塑剂用量和浓度对丙酮膜吸附等温线均有影响。热分析表明,薄膜具有热稳定性。增塑剂的存在及其浓度的增加导致玻璃化转变和熔融温度的降低。冷冻处理和增塑剂的存在使薄膜看起来更光滑。结果表明,甘油对山梨醇-水蒸气吸附和凯菲兰膜形貌的影响大于山梨醇-水蒸气吸附。
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Biodegradable Films from Kefiran-Based Cryogel Systems
Kefiran, which was isolated from kefir grains, was used for the fabrication of cryogel-films in the presence of plasticizers, such as glycerol and sorbitol. Varying concentration ratios of the exopolysaccharide/plasticizer system were employed in the process of the cryogel-film formulation and their effect on the physical (film thickness, moisture content, and solubility) and the mechanical (tensile strength and elongation at break) properties of the films was monitored. Kefiran-film vapor adsorption isotherms were calculated, and a thermal analysis of the samples was also performed. The structural characteristics of the cryogel-films were observed using confocal laser scanning microscopy. The cryo-treatment, alongside the plasticizer addition, affected the physical and mechanical properties of the kefiran films, as well as their morphology. Increasing kefiran concentration resulted in increasing the film thickness, the moisture content, and the tensile strength, while decreased their solubility and their elongation at break. Kefiran-film adsorption isotherms were affected by the cryo-treatment, the kefiran concentration, and the plasticizer use and concentration. The thermal analysis of the kefiran films showed thermal stability. The presence of the plasticizers and their increment concentration resulted in decreasing the glass transition and the melting temperatures. The cryo-treatment and the presence of plasticizers resulted in the films appearing smoother. Glycerol proved to affect more than the sorbitol–water vapor adsorption and the morphology of kefiran films.
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