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金黄色葡萄球菌肺炎并重症黄疸1例
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作者 游爱萍 黄亦芬 《新疆医学院学报》 1995年第4期223-223,共1页
金黄色葡萄球菌肺炎并重症黄疸1例游爱萍黄亦芬(新疆和静钢铁厂医院)(新疆医学院第一附属医院呼吸科)患者,男,55岁,汉族,工人,因发热、咳血痰、右侧胸痛1周,院外青霉素治疗无效,两天前出现黄疸,日渐加深于1995年7... 金黄色葡萄球菌肺炎并重症黄疸1例游爱萍黄亦芬(新疆和静钢铁厂医院)(新疆医学院第一附属医院呼吸科)患者,男,55岁,汉族,工人,因发热、咳血痰、右侧胸痛1周,院外青霉素治疗无效,两天前出现黄疸,日渐加深于1995年7月5日入院。体检:体温:36.2℃... 展开更多
关键词 肺炎 金黄金葡萄菌 并发症 黄疸
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Gold nanorods core/AgPt alloy nanodots shell: A novel potent antibacterial nanostructure 被引量:10
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作者 Xiaona Hu Yuyun Zhao +7 位作者 Zhijian Hu Aditya Saran Shuai Hou Tao Wen Wenqi Liu Yinglu Ji Xingyu Jiang Xiaochun Wu 《Nano Research》 SCIE EI CAS CSCD 2013年第11期822-835,共14页
In the light of the current problems of silver nanoparticles (Ag NPs) in terms of antibacterial performance, we have designed a novel trimetallic corelshell nanostructure with AgPt alloy nanodots epitaxially grown o... In the light of the current problems of silver nanoparticles (Ag NPs) in terms of antibacterial performance, we have designed a novel trimetallic corelshell nanostructure with AgPt alloy nanodots epitaxially grown on gold nanorods (Au@PtAg NRs) as a potential antibacterial agent. Both Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus) were studied. The antibacterial activity exhibits an obvious composition-dependence. On increasing the Ag fraction in the alloy shell up to 80%, the antibacterial activity gradually increases, demonstrating a flexible way to tune this activity. At 80% Ag, tile antibacterial activity is better than that of a pure Ag shell. The improved antibacterial ability mainly results from the high exposure of silver on the shell surface due to the dot morphology. We thus demonstrate that forming alloys is an effective way to improve antibacterial activity while retaining high chemical stability for Ag-based nanomaterials. Furthermore, due to the tunable localized surface plasmonic response in the near-infrared (NIR) spectral region, additional control over antibacterial activity using light--such as photothermal killing and photo- triggered silver ion release--is expected. As a demonstration, highly enhanced antibacterial activity is shown by utilizing the NIR photothermal effect of the nanostructures. Our results indicate that such tailored nanostructures will find a role in the future fight against bacteria, including the challenge of the increasing severity of multidrug resistance. 展开更多
关键词 AgPt gold nanorods antibacterial activities composition-dependence photothermal effect
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