Morphology and inhibition performance of Ag thin film as antimicrobial coating deposited by RF-PVD on 316 L stainless steel

机译：AG薄膜作为抗微生物涂层的形态和抑制性能，RF-PVD在316 L不锈钢上沉积

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Foreign body related infection (FBRIs) is caused by forming biofilm of bacterial colony of medical equipment surfaces. In many cases, the FBRIs is still happened on the surface after medical sterilization process has been performed. In order to avoid the case, surface modification by antimicrobial coating was used. In this work, we present silver (Ag) thin film on 316 L stainless steel substrate surface was deposited using Radio Frequency Sputtering PVD (RF-PVD). The morphology of Ag thin film were characterized using SEM-EDX. Surface roughness of the thin film was measured by AFM. In addition, Kirby Bauer Test in Escherichia coli (E. coli) was conducted in order to evaluate the inhibition performance of the Ag thin film antimicrobial coating. Based on SEM and AFM results show that the particle size is increased from 523 nm to 708 nm and surface roughness from 9 to 20 nm for deposition time 10 minutes to 20 minutes, respectively. In addition, the inhibition layer of the coating is about 29 mm.

机译：异物相关感染（FBRIS）是由形成医疗设备表面的细菌菌落的生物膜引起的。在许多情况下，在进行医疗灭菌过程后，表面仍然发生在表面上。为了避免这种情况，使用抗微生物涂层的表面改性。在这项工作中，我们在316L中呈现银（Ag）薄膜，使用射频溅射PVD（RF-PVD）沉积不锈钢基板表面。使用SEM-EDX表征AG薄膜的形态。通过AFM测量薄膜的表面粗糙度。此外，进行了kirby bauer测试，以评价Ag薄膜抗微生物涂层的抑制性能。基于SEM和AFM结果表明，粒度从523nm至708nm增加到708nm，表面粗糙度分别从9至20nm的表面粗糙度分别为10分钟至20分钟。另外，涂层的抑制层约为29mm。

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《International Conference on Materials and Metallurgical Engineering and Technology》|2018年|various paging|共8页
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A. Purniawan; Y. S. A. Khrisna; A. Rasyida; T. M. Atmono;
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Morphology and inhibition performance of Ag thin film as antimicrobial coating deposited by RF-PVD on 316 L stainless steel

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