Quantum Dots Based Electrochemiluminescent Immunosensor by Coupling Enzymatic Amplification with Self-Produced Coreactant from Oxygen Reduction

Abstract: A highly sensitive competitive immunosensor based on the electrochemiluminescence (ECL) of quantum dots (QDs) was proposed by coupling with an enzymatic amplification. The fabrication process of the immunosensor was traced with atomic force microscopic images and electrochemical impedance spectra. The strong cathodic ECL emission of the immobilized QDs could be detected at a relatively low emission potential. The reduction of dissolved oxygen during the cathodic process provided a self-produced coreactant, H(2… Show more

“…3, curve d), the GOx/FeTMPyP/RGNRs in air-saturated PBS showed more negative reduction peak potential (Fig. 4), which resulted from the increased impedance due to the coverage of glucose oxidase [16]. Upon additions of glucose aliquots to air-saturated pH 7.4 PBS, the peak current of cyclic voltammogram and amperometric response decreased linearly in the glucose concentration range from 0.5 to 10.0 mM with the sensitivity of 17.3 lA mM À1 cm À2 and detection limit of 0.2 mM at S/N ratio of 3.…”

Functionalization of graphene nanoribbons with porphyrin for electrocatalysis and amperometric biosensing

“…3, curve d), the GOx/FeTMPyP/RGNRs in air-saturated PBS showed more negative reduction peak potential (Fig. 4), which resulted from the increased impedance due to the coverage of glucose oxidase [16]. Upon additions of glucose aliquots to air-saturated pH 7.4 PBS, the peak current of cyclic voltammogram and amperometric response decreased linearly in the glucose concentration range from 0.5 to 10.0 mM with the sensitivity of 17.3 lA mM À1 cm À2 and detection limit of 0.2 mM at S/N ratio of 3.…”

Functionalization of graphene nanoribbons with porphyrin for electrocatalysis and amperometric biosensing

“…They proposed a strategy using ECL of DMSA-CdTe-QDs as emitters, and enzymatic reaction to consume the self-produced coreactant in the condition of hydroquinone for sensitive, competitive hIgG detection, which ranged from 0.05 ng mL -1 to 5 mg mL -1 (Fig. 4) [48].…”

Quantum dot-based photoelectric conversion for biosensing applications

“…Using the enhanced ECL of CdSe quantum dots composited with CNTs, Zhu's group [27] proposed a sensitive immunoassay method based on the decrease of ECL intensity upon the formation of immunocomplex due to the increasing impedance. By coupling with an enzymatic amplification with the ECL of QDs at a relatively low emission potential with a self-produced coreactant, H 2 O 2 ( Figure 11), Ju's group [69] proposed a novel ECL immunosensor for HIgG with wide calibration range of 0.05 ng/mL −5 μg/mL. This facile immunosensing strategy opened a new avenue for detection of proteins and application of QDs in ECL biosensing.…”

Sensitive biosensing strategy based on functional nanomaterials