阳离子纳米聚合物的合成、表征及其抗菌性研究?
양리자납미취합물적합성、표정급기항균성연구?
Synthesis,characterization and antibacterial activity of cationic nanopolymer
  • 万方数据
    功能材料 공능재료
    Journal of Functional Materials
    2015年 22期 22137-22140 ,共4页

    肖先森%刘鹤筹%温青%杨乐敏%王正辉

    초선삼%류학주%온청%양악민%왕정휘

    可聚合阳离子乳化剂%阳离子纳米聚合物%结构表征%抗菌性 可聚閤暘離子乳化劑%暘離子納米聚閤物%結構錶徵%抗菌性
    가취합양리자유화제%양리자납미취합물%결구표정%항균성
    cationic polymerizable emulsifier%cationic nanopolymer%structural characterization%antibacterial ac-tivity
    利用自制的可聚合阳离子乳化剂甲基丙烯酰氧乙基二甲基十六烷基溴化铵(MDHB),与甲基丙烯酸甲酯(MMA)通过胶束共聚合得到阳离子的纳米聚合物.测定了聚合产物的粒径、zeta 电位和分子量,用 FT-IR、1 H NMR 和 TG 对产物结构进行表征,用二倍稀释法研究了该类聚合物对大肠杆菌(E.coli)和金黄色葡萄球菌(S.aureus)的最低杀菌浓度(MBC)和最低抑菌浓度(MIC).结果表明,MDHB 是影响聚合物的结构特征及抗菌性的主要因素,随着 MDHB 用量增加,粒径增大、抗菌性增强、zeta 电位和分子量降低.聚合产物热稳定性良好,能添加到通用聚合物中制得抗菌材料,因而该类聚合物有望成为具有开发应用潜力的新型抗菌剂.
    이용자제적가취합양리자유화제갑기병희선양을기이갑기십륙완기추화안(MDHB),여갑기병희산갑지(MMA)통과효속공취합득도양리자적납미취합물.측정료취합산물적립경、zeta 전위화분자량,용 FT-IR、1 H NMR 화 TG 대산물결구진행표정,용이배희석법연구료해류취합물대대장간균(E.coli)화금황색포도구균(S.aureus)적최저살균농도(MBC)화최저억균농도(MIC).결과표명,MDHB 시영향취합물적결구특정급항균성적주요인소,수착 MDHB 용량증가,립경증대、항균성증강、zeta 전위화분자량강저.취합산물열은정성량호,능첨가도통용취합물중제득항균재료,인이해류취합물유망성위구유개발응용잠력적신형항균제.
    Cationic nanopolymers were prepared by micellar copolymerization of methylmathacrylate (MMA) with methacryloxyethyldimethylhexadecyl ammonium bromide (MDHB).The particle size,zeta potential and molecular weight of the polymers were measured,and the structures were characterized by FT-IR,1 H NMR and TG.The minimum inhibitory concentration (MIC)and the minimum bactericidal concentration(MBC)of this kind of polymer against E.Coli and S.aureus were tested using a broth dilution test.The results shown that the concentration of MDHB plays a key role in structural characteristics and antibacterial properties of the products. With increasing of MDHB in recipe,particle size and antibacterial activity increase,zeta potential and molecular weight decrease.The polymers have good thermal stability,so they can be blended with common polymer ma-trix to prepare antibacterial materials.Therefore this kind of polymer is expected to be a promising antibacterial agent for development and application.
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