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|Title:||Graphene-based biosensors: Methods, analysis and future perspectives|
|Citation:||IET Circuits, Devices & Systems, 9(6): p. 434 – 445, (2015)|
|Abstract:||Graphene (GN), a single layer two-dimensional structure nanomaterial, exhibits exceptional physical, electrical and chemical properties that lead to many applications from electronics to biomedicine. The unique parameters of GN, notably its considerable electron mobility, thermal conductivity, high surface area and electrical conductivity, are bringing heightened attention into biomedical applications. This study assesses the recent advances in GN-based biosensors and its derivatives in different areas to focus on glucose sensing, DNA sensing, drug and gene delivery, cancer therapy and other related biomedical applications (electrochemical sensors, tissue engineering, haemoglobin and cholesterol sensing), together with a brief discussion on challenges and future perspectives in this rapidly developing field.|
|Appears in Collections:||Dept of Electronic and Computer Engineering Research Papers|
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