منوی کاربری
  • پشتیبانی: ۴۲۲۷۳۷۸۱ - ۰۴۱
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دانلود رایگان مقاله بیومیمتیک پلیمری مبتنی بر نانوکامپوزیت نقره

عنوان فارسی
بیومیمتیک پلیمری مبتنی بر نانوکامپوزیت نقره به عنوان پلت فرم ضد میکروبی
عنوان انگلیسی
Biomimetic polymer-based Ag nanocomposites as a antimicrobial platform
صفحات مقاله فارسی
0
صفحات مقاله انگلیسی
9
سال انتشار
2016
نشریه
الزویر - Elsevier
فرمت مقاله انگلیسی
PDF
کد محصول
E264
رشته های مرتبط با این مقاله
شیمی
گرایش های مرتبط با این مقاله
شیمی کاربردی و شیمی تجزیه
مجله
مواد کاربردی امروزی - Applied Materials Today
دانشگاه
گروه شیمی، دانشگاه ملی سون یات سن، کائوسیونگ، تایوان
کلمات کلیدی
دوپامین، AFM، نانو ذرات نقره، بهره وری ضد باکتری، سازگاری زیستی
۰.۰ (بدون امتیاز)
امتیاز دهید
چکیده

Abstract


Dopamine, a component of marine mussel adhesive proteins, plays an important role in various fields such as biosensors, bioelectronics, as well as tissue and pharmaceutical engineering. In this study, we describe a simple approach to prepare a dopamine-functionalized Ag nanocomposite. Using AFM, XPS, and SEM analysis, we demonstrated that dopamine is effectively coated onto a glass substrate and that silver (Ag) nanoparticles are successfully attached and well dispersed on the dopamine-covered glass. Furthermore, absorbance analysis, adhesion assay, and Kirby-Bauer disc diffusion tests are show that the dopamine/Ag nanocomposite exhibits good antibacterial efficiency and inhibits bacterial cell adhesion. The biocompatibility of the nanocomposites towards endothelial cells was also assessed using the MTT assay. The present data show that dopamine/Ag nanocomposites are selective compatible with endothelial cells and toxic for bacterial cells. The findings of the present study can thus support a safe and efficient strategy to develop medical devices and intra-devices or intra-catheters for the prevention of nosocomial and catheter-mediated blood-stream infections and/or endothelial injury complications.

نتیجه گیری

4. Conclusions


The analysis of dopamine-deposited Ag nanocomposites revealed a small size (28.8 ± 7.2 nm) and good dispersion of silver nanoparticles on the substrate surface. The Dopamine/Ag substrate shows excellent antimicrobial activity and reduced biofilm formation, which suggests good antifouling potency and microorganism inhibition properties for these nanocomposites. According to previous studies [38,45], catheter-mediated bloodstreaminfectionsplay animportant role innosocomial bacteraemia and increased complications. Here, we demonstrate that the Dopamine/Ag nanocomposite is selective harmless for endothelial cells and toxic for bacterial cells, and can therefore underpin a safe and efficient strategy towards medical devices and intradevices or intra-catheters for the prevention of nosocomial and catheter-mediated blood-stream infections or endothelial injury complications.


بدون دیدگاه