关键词: 水不溶高分子抗菌材料, 氯甲基聚苯乙烯, 接枝微粒, 季铵(鏻)盐, 抗菌机理

Abstract: The grafting particulate CMPSt/SiO2 on which chloromethylated polystyrene was grafted on the surface of silica gel was used as a starting material, and the quaterisation and quaternary phosphine reactions were carried out using triethylamine, tributylamine and triphenyl phosphine as the reagents, resulting in two kinds of composite particles, QN-PSt/SiO2 and QP-PSt/SiO2. They are water-insoluble materials with high performance. Antimicrobial property of the two composite particles was mainly studied using Escherichia coli as a disease-leading bacterium and with the method of counting live bacterium plate. The relationship between their chemical structure and antibacterial property was examined. Their antibacterial mechanism was explored by measuring extracellular DNA and RNA. The experimental results show that two composiles possess high antibacterial activity, especially QP-PSt/SiO2, its antimicrobial rate can reach 100%. The density of antibacterial groups on the surface and chemical structure of antibacterial groups are the main factors affecting on the antibacterial property of the composite particles. The composite particles with high quaternary degree have stronger antibacterial ability. The antibacterial activity of QP-PSt/SiO2 with phosphine salt-type is much stronger than QN-PSt/SiO2 with quaternary ammonium salt-type. QN-PSt/SiO2 repared with tri-n-butylamine has stronger antibacterial ability than that prepared with triethylamine. The antimicrobial mechanism of QN-PSt/SiO2 and QP-PSt/SiO2 is based on a sterilizing bacterium process.

Key words: water-insoluble polymeric antimicrobial material, chloromethylated polystyrene, chloromethylated polystyrene, grafting particles (phosphine) salt, antibacterial mechanism