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Characteristic of neuroblastoma cell (SH-SY5Y) culture on the crystalline diamond film  

Nam, Hyo-Geun (Dept. of Medical IT Engineering, Kumoh National Institute of technology)
Oh, Hong-Gi (Dept. of Medical IT Engineering, Kumoh National Institute of technology)
Kim, Dae-Hoon (Dept. of Medical IT Engineering, Kumoh National Institute of technology)
Kim, Min-Hye (Dept. of Medical IT Engineering, Kumoh National Institute of technology)
Park, Hye-Bin (Dept. of Applied chemistry, Kumoh National Institute of technology)
Jhee, Kwang-Hwan (Dept. of Applied chemistry, Kumoh National Institute of technology)
Song, Kwang-Soup (Dept. of Medical IT Engineering, Kumoh National Institute of technology)
Publication Information
Journal of the Korean Society of Manufacturing Process Engineers / v.12, no.4, 2013 , pp. 10-15 More about this Journal
Abstract
In order to fabricate high sensitive and stable biosensors, we require the material with superior biocompatibility and physical-chemical stability. Many kinds of biomaterials have been evaluated to apply for bioindustry. Recently, carbon based diamond thin films have been focal pointed as bio-applications and their possibility has been evaluated. Diamond thin film has many advantages for electrochemical and biological applications, such as wide potential window (3.0-3.5V), low background current and chemical-physical stability. In this work, we have cultured neuroblastoma cell (SH-SY5Y) on the crystalline diamond films. We use MTT assay to evaluate the characteristic of cell culture on the substrates. As a result, neuroblastoma cell was cultured on the crystalline diamond film as similar as cell culture dish.
Keywords
Carbon; Crystalline Diamond; SH-SY5Y; MTT assay;
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