季铵盐对聚醚砜膜进行表面功能化以实现接触活性抗菌和抗生物污损性能

Surface Functionalization of Polyethersulfone Membrane with Quaternary Ammonium Salts for Contact-Active Antibacterial and Anti-Biofouling Properties.

作者信息

Hu Xiao, Lin Xiaohui, Zhao Huabing, Chen Zihao, Yang Jian, Li Fan, Liu Changjun, Tian Feng

机构信息

The Institute of Medical Equipment, Academy of Military Medical Science, Tianjin 300161, China.

Tianjin Key Laboratory for Prevention and Control of Occupational and Environmental Hazard, Logistics College of Chinese People's Armed Police Forces, Tianjin 300162, China.

出版信息

Materials (Basel). 2016 May 17;9(5):376. doi: 10.3390/ma9050376.

DOI:10.3390/ma9050376

PMID:28773499

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5503072/

Abstract

Biofilm is a significant cause for membrane fouling. Antibacterial-coated surfaces can inhibit biofilm formation by killing bacteria. In this study, polyethersulfone (PES) microfiltration membrane was photografted by four antibiotic quaternary ammonium compounds (QACs) separately, which were synthesized from dimethylaminoethyl methacrylate (DMAEMA) by quaternization with butyl bromide (BB), octyl bromide (OB), dodecyl bromide (DB), or hexadecyl bromide (HB). XPS, ATR-FTIR, and SEM were used to confirm the surfaces' composition and morphology. After modification, the pores on PES-g-DMAEMA-BB and PES-g-DMAEMA-OB were blocked, while PES-g-DMAEMA-DB and PES-g-DMAEMA-HB were retained. We supposed that DMAEMA-BB and DMAEMA-OB aggregated on the membrane surface due to the activities of intermolecular or intramolecular hydrogen bonds. Bacteria testing found the antibacterial activities of the membranes increased with the length of the substituted alkyl chain. Correspondingly, little bacteria were observed on PES-g-DMAEMA-DB and PES-g-DMAEMA-HB by SEM. The antifouling properties were investigated by filtration of a solution of . Compared with the initial membrane, PES-g-DMAEMA-DB and PES-g-DMAEMA-HB showed excellent anti-biofouling performance with higher relative flux recovery (RFR) of 88.3% and 92.7%, respectively. Thus, surface functionalization of the PES membrane with QACs can prevent bacteria adhesion and improve the anti-biofouling activity by the contact-active antibacterial property.

摘要

生物膜是造成膜污染的一个重要原因。抗菌涂层表面可通过杀灭细菌来抑制生物膜的形成。在本研究中，聚醚砜（PES）微滤膜分别用四种抗生素季铵化合物（QACs）进行了光接枝，这些化合物是由甲基丙烯酸二甲氨基乙酯（DMAEMA）与溴丁烷（BB）、溴辛烷（OB）、溴十二烷（DB）或溴十六烷（HB）季铵化合成的。采用X射线光电子能谱（XPS）、衰减全反射傅里叶变换红外光谱（ATR-FTIR）和扫描电子显微镜（SEM）来确认表面的组成和形态。改性后，PES-g-DMAEMA-BB和PES-g-DMAEMA-OB上的孔被堵塞，而PES-g-DMAEMA-DB和PES-g-DMAEMA-HB的孔得以保留。我们推测DMAEMA-BB和DMAEMA-OB由于分子间或分子内氢键的作用而聚集在膜表面。细菌测试发现，膜的抗菌活性随着取代烷基链长度的增加而增强。相应地，通过扫描电子显微镜观察，在PES-g-DMAEMA-DB和PES-g-DMAEMA-HB上几乎没有发现细菌。通过过滤一种……溶液来研究其抗污染性能。与初始膜相比，PES-g-DMAEMA-DB和PES-g-DMAEMA-HB表现出优异的抗生物污染性能，相对通量恢复率（RFR）分别高达88.3%和92.7%。因此，用QACs对PES膜进行表面功能化可以通过接触活性抗菌性能防止细菌粘附并提高抗生物污染活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e98/5503072/dd7000b8aa71/materials-09-00376-g001.jpg

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季铵盐对聚醚砜膜进行表面功能化以实现接触活性抗菌和抗生物污损性能

Surface Functionalization of Polyethersulfone Membrane with Quaternary Ammonium Salts for Contact-Active Antibacterial and Anti-Biofouling Properties.

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