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受贻贝启发的负载纳米银的层状双氢氧化物嵌入可生物降解聚合物基体中以增强机械性能和气阻隔性能。

Mussel-inspired nano-silver loaded layered double hydroxides embedded into a biodegradable polymer matrix for enhanced mechanical and gas barrier properties.

作者信息

Mao Long, Liu Jing-Yi, Zheng Si-Jie, Wu Hui-Qing, Liu Yue-Jun, Li Zhi-Han, Bai Yong-Kang

机构信息

Fujian Provincial Key Laboratory of Functional Materials and Applications, School of Materials Science and Engineering, Xiamen University of Technology Ligong Road No. 600, Jimei District Xiamen 361024 PR China

Key Laboratory of Advanced Packaging Materials and Technology of Hunan Province, Hunan University of Technology Zhuzhou 412007 PR China.

出版信息

RSC Adv. 2019 Feb 20;9(10):5834-5843. doi: 10.1039/c8ra09602c. eCollection 2019 Feb 11.

DOI:10.1039/c8ra09602c
PMID:35515932
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9060778/
Abstract

In this paper, a facile, green and mussel-inspired method is presented to prepare silver loaded layered double hydroxides (Ag-LDHs@PDA and Ag-LDHs@TA-Fe(iii)) using a pre-synthesis polydopamine (PDA)/tannic acid (TA)-Fe(iii) layer as a nanoscale guide and PDA/TA itself as a reducing reagent to form uniform silver nanoparticles (AgNPs) on the surface of modified LDHs. Meanwhile, another kind of LDH, Ag-LDHs(PVP), was prepared the direct reduction of the precursor [Ag(NH)] with polyvinyl pyrrolidone (PVP). And three kinds of Ag-LDHs/poly(ε-caprolactone) (PCL) nanocomposite were prepared by blending Ag-LDHs and pure PCL a solution casting method to obtain homogeneous films. It is shown that the obtained AgNPs are distributed on the LDH surfaces uniformly. And the high loading and medium size of the AgNPs present in Ag-LDHs(PVP) give it the best antibacterial properties. However, compared with Ag-LDHs(PVP), the better dispersibilities of Ag-LDHs@PDA and Ag-LDHs@TA-Fe(iii) contribute to the greater aspect ratios of Ag-LDHs in the matrices, resulting in an increase in the number of tortuous paths for gas diffusion. Meanwhile, Ag-LDHs@PDA and Ag-LDHs@TA-Fe(iii) have stronger interactions with the PCL matrix, which is favorable for the existence of less interface defects in the matrix, resulting in an improvement in the mechanical and gas barrier properties. Therefore, mussel-inspired antibacterial Ag-LDHs/PCL nanocomposites show preferable mechanical and gas barrier properties.

摘要

本文提出了一种简便、绿色且受贻贝启发的方法,以预合成的聚多巴胺(PDA)/单宁酸(TA)-铁(Ⅲ)层作为纳米级导向剂,并以PDA/TA自身作为还原剂,在改性层状双氢氧化物(LDHs)表面形成均匀的银纳米颗粒(AgNPs),从而制备负载银的层状双氢氧化物(Ag-LDHs@PDA和Ag-LDHs@TA-Fe(Ⅲ))。同时,通过用聚乙烯吡咯烷酮(PVP)直接还原前驱体[Ag(NH)]制备了另一种LDH,即Ag-LDHs(PVP)。通过溶液浇铸法将Ag-LDHs与纯聚己内酯(PCL)共混制备了三种Ag-LDHs/聚己内酯(PCL)纳米复合材料,以获得均匀的薄膜。结果表明,所制备的AgNPs均匀分布在LDH表面。Ag-LDHs(PVP)中存在的高负载量和中等尺寸的AgNPs赋予其最佳的抗菌性能。然而,与Ag-LDHs(PVP)相比,Ag-LDHs@PDA和Ag-LDHs@TA-Fe(Ⅲ)更好的分散性有助于提高LDHs在基体中的长径比,导致气体扩散的曲折路径数量增加。同时,Ag-LDHs@PDA和Ag-LDHs@TA-Fe(Ⅲ)与PCL基体具有更强的相互作用,这有利于基体中存在较少的界面缺陷,从而提高了力学性能和气体阻隔性能。因此,受贻贝启发的抗菌Ag-LDHs/PCL纳米复合材料表现出较好的力学性能和气体阻隔性能。

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