‘On-off-on’ electrochemiluminescent aptasensor for Hg2+ based on dual signal amplification enabled by a self-enhanced luminophore and resonance energy transfer
[Display omitted] •A dual signal amplification strategy was developed for ‘on–off-on’ ECL system.•Self-enhaced luminophore of Ru@SiO2-NGQDs provided the first ‘switch on’ signal.•The ‘switch off’ signal was obtained by the ERET between Ru@SiO2-NGQDs and AuNPs.•Hg2+ induced the second ‘switch on’ sig...
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Veröffentlicht in: | Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2022-02, Vol.907, p.116063, Article 116063 |
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Sprache: | eng |
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•A dual signal amplification strategy was developed for ‘on–off-on’ ECL system.•Self-enhaced luminophore of Ru@SiO2-NGQDs provided the first ‘switch on’ signal.•The ‘switch off’ signal was obtained by the ERET between Ru@SiO2-NGQDs and AuNPs.•Hg2+ induced the second ‘switch on’ signal with amplified ECL recovery efficiency.•The method exhibited wide linear range, low LOD and good selectivity for Hg2+ assay.
Divalent mercury ion (Hg2+) is widely distributed in the ecological environment and harmful to the human body and the environment. Herein, a highly sensitive and selective ‘on–off-on’ electrochemiluminescence (ECL) aptamer sensing method based on the dual signal amplification strategy of a self-enhanced luminophore and ECL resonance energy transfer (ECL-RET) was developed to detect Hg2+. In detail, the first ‘switch-on’ state was obtained by the self-enhanced luminophore of Ru(bpy)32+-doped silica nanoparticle-nitrogen-doped graphene quantum dots (Ru@SiO2-NGQDs) modified glassy carbon electrode, which significantly amplified the ECL intensity compared with the mixture of Ru@SiO2 and NGQDs. Later, the ‘switch-off’ state was induced by gold nanoparticles (AuNPs), which acted the acceptor in the ECL-RET system between AuNPs and Ru@SiO2-NGQDs due to their good spectral overlap. This combination of the self-enhanced luminophore and ECL-RET provided a novel dual signal amplification strategy, which led to a high signal-to-noise ratio and high analysis sensitivity. Finally, upon the addition of Hg2+, the formation of a stable T-Hg2+-T structure induced the release of AuNPs from the sensing interface and halted the ECL-RET process, resulting in ECL signal recovery (the second ‘switch-on’ state). For the detection of Hg2+, the proposed ECL sensor exhibited a wide linear range from 1 × 10−14 to 1 × 10−6 M and a highly sensitive detection limit of 3.0 fM. Finally, the feasibility of the developed method in water sample analysis was investigated. |
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ISSN: | 1572-6657 1873-2569 |
DOI: | 10.1016/j.jelechem.2022.116063 |