Abstract

An ultrasensitive resonance energy transfer based “on-off” switch electrochemiluminescence (ECL) immunosensing strategy was proposed and applied for prostate specific antigen (PSA) detection. In detail, self-enhancing nanohybrids of nano-CeO2 and AuNPs decorated graphitic carbon nitride quantum dots (CeO2–AuNPs–g-CNQDs) were synthesized, which produced high ECL emission with coreactant K2S2O8 for “switch-on” state. Noticeably, due to the reversible Ce3+↔ Ce4+ reaction, nano-CeO2 could serve as highly-efficient coreaction accelerator and induce the decomposition of S2O82− into SO4• -, which endowed the g-CNQDs/K2S2O8 system with enhanced ECL emission. Moreover, AuNPs acted crucial role in promoting the electronic transmission rate and providing sites to immobilize the biomolecules. On the other hand, the AgNPs-VB2 nanocomposites were used as dual labels to quench the ECL signal of g-CNQDs-K2S2O8 system via ECL-RET, leading to the decreased ECL for “switch-off” state. On the basis of sandwich-typed immunosensing strategy, the developed ECL immunosensing platform exhibited sensitive response to PSA in a linear range of 1.0 × 10−5 _ 50 ng mL−1 with a low detection limit of 0.0045 pg mL−1 (S/N = 3). This work provided a promising tool in early clinical diagnostics of prostate cancer.

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