通过掺入纤维素纳米晶 - ZnO 纳米杂化物研究 PHBV 纳米复合材料的体外降解及可能的水解机理。

In vitro degradation and possible hydrolytic mechanism of PHBV nanocomposites by incorporating cellulose nanocrystal-ZnO nanohybrids.

机构信息

The Key Laboratory of Advanced Textile Materials and Manufacturing Technology of Ministry of Education and National Engineering Lab for Textile Fiber Materials & Processing Technology, College of Materials and Textile, Zhejiang Sci-Tech University, Hangzhou 310018, China.

出版信息

Carbohydr Polym. 2017 Nov 15;176:38-49. doi: 10.1016/j.carbpol.2017.08.051. Epub 2017 Aug 16.

DOI:10.1016/j.carbpol.2017.08.051

PMID:28927621

Abstract

Fabrication and characterization of bbiodegradable nanocomposites based on poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) matrix reinforced with cellulose nanocrystal (CNC)-ZnO nanohybrids via simple solution casting for possible use as antibacterial biomedical materials is reported. The obtained nanocomposites exhibited an excellent antibacterial ratio of 95.2-100% for both types of bacteria namely S. aureus and E. coli and showed 9-15% degradation after one week. The addition of CNC-ZnO showed a positive effect on hydrophilicity and barrier properties. More significantly, the nanocomposites with 10wt% CNC-ZnO showed enhancement in tensile strength (140.2%), Young's modulus (183.1%), and the maximum decomposition temperature (T) value increased by 26.1°C. Moreover, this study has provided a possible mechanism for using such nanofillers on the hydrolytic degradation of PHBV, which was beneficial to obtain the high-performance nanocomposites with modulated degradation rate for antibacterial biomaterials.

摘要

以聚（3-羟基丁酸酯-co-3-羟基戊酸酯）（PHBV）为基质，通过简单的溶液浇铸制备了可生物降解的纳米复合材料，并增强了纤维素纳米晶体（CNC）-ZnO 纳米杂化物，用于作为抗菌生物医学材料。所得到的纳米复合材料对两种细菌（即金黄色葡萄球菌和大肠杆菌）表现出优异的抗菌率，达到了 95.2-100%，并且在一周后降解了 9-15%。添加 CNC-ZnO 对亲水性和阻隔性能有积极影响。更重要的是，含有 10wt% CNC-ZnO 的纳米复合材料的拉伸强度（140.2%）、杨氏模量（183.1%）和最大分解温度（T）值分别提高了 26.1°C。此外，本研究提供了一种在 PHBV 水解降解中使用这种纳米填料的可能机制，这有利于获得具有调制降解率的高性能纳米复合材料，用于抗菌生物材料。

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通过掺入纤维素纳米晶 - ZnO 纳米杂化物研究 PHBV 纳米复合材料的体外降解及可能的水解机理。

In vitro degradation and possible hydrolytic mechanism of PHBV nanocomposites by incorporating cellulose nanocrystal-ZnO nanohybrids.

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