具有卓越耐化学性和抗菌性能的多功能纤维素天然橡胶与银纳米颗粒薄膜

Multifunctional Cellulosic Natural Rubber and Silver Nanoparticle Films with Superior Chemical Resistance and Antibacterial Properties.

作者信息

Supanakorn Goragot, Taokaew Siriporn, Phisalaphong Muenduen

机构信息

Bio-Circular-Green-Economy Technology & Engineering Center, BCGeTEC, Department of Chemical Engineering, Faculty of Engineering, Chulalongkorn University, Bangkok 10330, Thailand.

Department of Materials Science and Biotechnology, School of Engineering, Nagaoka University of Technology, Nagaoka 940-2188, Japan.

出版信息

Nanomaterials (Basel). 2023 Jan 28;13(3):521. doi: 10.3390/nano13030521.

DOI:10.3390/nano13030521

PMID:36770481

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9921950/

Abstract

Composite films of natural rubber/cellulose fiber/silver nanoparticle were synthesized in a green route via the latex solution process. Hybrid cellulose filler containing carboxymethyl cellulose and cellulose microfibers was used to facilitate facile and fast preparation and to improve mechanical strength to the composites, respectively. All the composites possessed a high tensile strength of ~120 MPa, a high heat resistance of nearly 300 °C, and more than 20% biodegradability in soil in two weeks. Chemical resistance and antibacterial activity of the composite was enhanced depending on sizes and concentrations of silver nanoparticles (AgNPs). The composites containing 0.033-0.1% / AgNPs retarded toluene uptake to less than 12% throughout 8 h, whereas the composite containing 0.067-0.1% / AgNPs exhibited excellent antibacterial activities against and . In comparison, 50 nm-AgNPs presented higher antibacterial activities than 100 nm-AgNPs. In vitro cytotoxicity test assessed after incubation for 24 h and 48 h revealed that almost all AgNPs-composite films exhibited non/weak and moderate cytotoxicity, respectively, to HaCaT keratinocyte cells.

摘要

天然橡胶/纤维素纤维/银纳米颗粒复合薄膜通过胶乳溶液法以绿色路线合成。含有羧甲基纤维素和纤维素微纤维的混合纤维素填料分别用于促进复合材料的简便快速制备并提高其机械强度。所有复合材料均具有约120MPa的高拉伸强度、近300°C的高耐热性以及在两周内土壤中超过20%的生物降解性。复合材料的耐化学性和抗菌活性根据银纳米颗粒（AgNPs）的尺寸和浓度而增强。含有0.033 - 0.1% / AgNPs的复合材料在8小时内将甲苯吸收抑制至低于12%，而含有0.067 - 0.1% / AgNPs的复合材料对和表现出优异的抗菌活性。相比之下，50nm的AgNPs比100nm的AgNPs具有更高的抗菌活性。在孵育24小时和48小时后进行的体外细胞毒性测试表明，几乎所有AgNPs复合薄膜对HaCaT角质形成细胞分别表现出无/弱和中度细胞毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/139b/9921950/9c244023ee20/nanomaterials-13-00521-g001.jpg

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具有卓越耐化学性和抗菌性能的多功能纤维素天然橡胶与银纳米颗粒薄膜

Multifunctional Cellulosic Natural Rubber and Silver Nanoparticle Films with Superior Chemical Resistance and Antibacterial Properties.

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