This study investigated the effectiveness of a graphene- and aptamer-based field-effect-transistor-like (FET-like) sensor in detecting lead and potassium ions. The sensor consists of a graphene-covered Si/SiO 2 wafer with thrombin binding aptamer (TBA) attached to the graphene layer and terminated by a methylene blue (MB) molecule. K + and Pb 2+ both bind to TBA and cause a conformational change, which results in MB moving closer to the graphene surface and donating an electron. Thus, the abundance of K + and Pb 2+ can be determined by monitoring the current across the source and drain channel. Device transfer curves were obtained with ambipolar field effect observed. Current readings were taken for K + concentrations of 100 μ M to 50 mM and Pb 2+ concentrations of 10 μ M to 10 mM. As expected, I d decreased as ion concentration increased. In addition, there was a negative shift in...
Ke Xu, Xenia Meshik, Barbara M Nichols, Eugene Zakar, Mitra Dutta and Michael A Stroscio
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Ke Xu, Xenia Meshik, Barbara M Nichols, Eugene Zakar, Mitra Dutta and Michael A Stroscio
Click for full article
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