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W2047726011 abstract "Abstract The preparation of biorecognition layers on the surface of a sensing platform is a very crucial step for the development of sensitive and selective biosensors. Different protocols have been used thus far for the immobilization of biomolecules onto various electrode surfaces. In this work, we investigate how the protocol followed for the immobilization of a DNA aptamer affects the performance of the fabricated thrombin aptasensor. Specifically, the differences in selectivity and optimum amount of immobilized aptamer of the fabricated aptasensors adopting either physical, covalent, or affinity immobilization were compared. It was discovered that while all three methods of immobilization uniformly show a similar optimum amount of immobilized aptamer, physical, and covalent immobilization methods exhibit higher selectivity than affinity immobilization. Hence, it is believed that our findings are very important in order to optimize and improve the performance of graphene‐based aptasensors." @default.
W2047726011 created "2016-06-24" @default.
W2047726011 creator A5027346868 @default.
W2047726011 creator A5061372715 @default.
W2047726011 creator A5086224169 @default.
W2047726011 date "2012-10-22" @default.
W2047726011 modified "2023-10-18" @default.
W2047726011 title "Biorecognition on Graphene: Physical, Covalent, and Affinity Immobilization Methods Exhibiting Dramatic Differences" @default.
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W2047726011 doi "https://doi.org/10.1002/asia.201200756" @default.
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