Abstract

We report a stochastic nanopore sensing method for the detection of Cu2+ ions. By employing a polyhistidine molecule as a chelating agent, and based on the different signatures of the events produced by the translocation of the chelating agent through an α-hemolysin pore in the absence and presence of target analytes, trace amounts of copper ions could be detected with a detection limit of 40nM. Importantly, although Co2+, Ni2+, and Zn2+ also interacts with the polyhistidine molecule, since the event residence times and/or blockage amplitudes for these metal chelates are significantly different from those of copper chelates, these metal ions do not interfere with Cu2+ detection. This chelating reaction approach should find useful application in the development of nanopore sensors for other metal ions.

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