Copper nanocluster-Ru(dcbpy) 3 2+ as a cathodic ECL-RET probe combined with 3D bipedal DNA walker amplification for bioanalysis

In this study, a cathodic intra-molecular electrochemiluminescence resonance energy transfer (ECL-RET) probe was exquisitely designed the integration of an ECL donor (Cu NCs) with an acceptor (Ru(dcbpy) ), and further employed the 3D bipedal DNA walker amplification strategy to monitor the platelet-derived growth factor BB (PDGF-BB). Specifically, blue emission Cu NCs with low consumption, biocompatibility and numerous resources, act as well-overlapped donors and significantly improve the ECL efficiency of Ru(dcbpy) . More impressively, the intra-molecular ECL-RET of Cu NC-Ru endowed a better and more stable ECL signal by reducing the electron-transfer distance and decreasing the energy loss. Furthermore, 3D bipedal DNA walker amplification was employed to efficiently convert the target PDGF-BB into numerous DNA strands, achieving sensitive target amplification. By virtue of such design, the constructed aptasensor exhibited a sensitive and selective assay for PDGF-BB with a detection range from 0.01 pM to 10 nM and a detection limit of 3.3 fM. The intramolecular ECL-RET and 3D bipedal DNA walker amplification strategy designed in this study will provide valuable insight into promising ultrasensitive ECL bioanalysis.