▎ 摘　　要

We have developed a "turn on" model of an electrochemiluminescence (ECL) based assay for lead ions. It is based on the formation of a G-quadruplex from an aptamer labeled with quantum dots (QDs) and placed on an electrode modified with of graphene and gold nanoparticles (AuNPs). A hairpin capture probe was labeled with a thiol group at the 5'-end and with an amino group at the 3'-end. It was then self-assembled on the electrode modified with graphene and AuNPs. In the absence of Pb(II), the amino tag on one end of the hairpin probe is close to the surface of the electrode and therefore unable to interact with the QDs because of steric hindrance. The ECL signal is quite weak in this case. If, however, Pb(II) is added, the stem-loop of the aptamer unfolds to form a G-quadruplex. The amino group at the 3'-end will become exposed and can covalently link to a carboxy group on the surface of the CdTe QDs. This leads to strong ECL. Its intensity increases ("turns on") with the concentration of Pb(II). Such a "turn-on" method does not suffer from the drawbacks of "turn-off" methods. ECL intensity is linearly related to the concentration of Pb(II) in the 10 p mol center dot L-1 to 1 n mol center dot L-1 range, with a 3.8 p mol center dot L-1 detection limit. The sensor exhibits very low detection limits, good selectivity, satisfying stability, and good repeatability.