基于正電荷和光熱協(xié)同效應(yīng)的新型半導(dǎo)體聚合物納米抗菌材料(英文)
發(fā)布時(shí)間:2021-11-14 06:03
由于抗生素的不當(dāng)使用和細(xì)菌多藥耐藥的出現(xiàn),迫切需要開(kāi)發(fā)新的抗菌劑.本文制備了具有光熱轉(zhuǎn)換性能的正電荷半導(dǎo)體高分子材料及具有協(xié)同抗菌活性的半導(dǎo)體聚合物納米粒子(SP-PPh3NPs). SP-PPh3NPs的光熱轉(zhuǎn)化效率為43. 8%.帶正電荷的SP-PPh3NPs可以附著在細(xì)菌上,有助于將熱量有效傳遞給細(xì)菌.在熱和正電荷的協(xié)同作用下,SP-PPh3NPs對(duì)革蘭氏陰性大腸桿菌(E. coli)和革蘭氏陽(yáng)性金黃色葡萄球菌(S.aureus)均具有抗菌活性,其對(duì)二者的體外抑菌率分別為99. 9%和98. 6%.此外,SP-PPh3NPs具有良好的生物相容性,對(duì)小鼠的主要器官幾乎無(wú)副作用.對(duì)細(xì)菌感染的小鼠皮膚傷口用SP-PPh3NPs治療12 d后,傷口可以很好地愈合.
【文章來(lái)源】:高等學(xué)校化學(xué)學(xué)報(bào). 2020,41(04)北大核心EISCICSCD
【文章頁(yè)數(shù)】:12 頁(yè)
【文章目錄】:
1 Experimental
1.1 Reagents and Instruments
1.2 Syntheses of SP-Br and SP-PPh3
1.3 Preparation of SP-PPh3Nanoparticles
1.4 Photothermal Conversion Efficiency
1.5 Cytotoxicity Assessment
1.6 Determination of Half-maximal Inhibitory Concentration
1.7 In vitro Antibacterial Activity
1.8 Morphological Observation of Bacteria
1.9 Wound Healing Experiment
2 Results and Discussion
2.1 Synthesis and Characterization
2.2 In vitro Antibacterial Test
2.3 In vivo Antibacterial Treatment Evaluation
3 Conclusions
本文編號(hào):3494095
【文章來(lái)源】:高等學(xué)校化學(xué)學(xué)報(bào). 2020,41(04)北大核心EISCICSCD
【文章頁(yè)數(shù)】:12 頁(yè)
【文章目錄】:
1 Experimental
1.1 Reagents and Instruments
1.2 Syntheses of SP-Br and SP-PPh3
1.3 Preparation of SP-PPh3Nanoparticles
1.4 Photothermal Conversion Efficiency
1.5 Cytotoxicity Assessment
1.6 Determination of Half-maximal Inhibitory Concentration
1.7 In vitro Antibacterial Activity
1.8 Morphological Observation of Bacteria
1.9 Wound Healing Experiment
2 Results and Discussion
2.1 Synthesis and Characterization
2.2 In vitro Antibacterial Test
2.3 In vivo Antibacterial Treatment Evaluation
3 Conclusions
本文編號(hào):3494095
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