Synthesis of highly efficient electrochemiluminescence (ECL) luminescent material is one of the effective means to improve the sensitivity of the sensor. In this study, an efficient ECL luminescent nanomaterial, carbon… Click to show full abstract
Synthesis of highly efficient electrochemiluminescence (ECL) luminescent material is one of the effective means to improve the sensitivity of the sensor. In this study, an efficient ECL luminescent nanomaterial, carbon nitride nanosheet (CNNS) decorated amino-functional metal-organic frameworks (CNNS@NH2-MIL(Fe)) were synthesized for sensitive ECL detection of cardiac troponin I (cTn-I). The synthesized CNNS@NH2-MIL(Fe) realized the effective mass loading of CNNS, and more importantly the NH2-MIL(Fe) could expedite the reduction of coreactant S2O82- to produce abundant ECL reaction intermediate SO4•- near CNNS, thus shortening the distance between SO4•- and excited state of CNNS with less energy loss to extremely enhance ECL signal of CNNS. Furthermore, the ECL signal of the immunosensor could be further enhanced when Ti3C2 nanosheet was used as the matrix to capture primary anti-cTn-I due to the reason that Ti3C2 not only exhibited large surface area and excellent metallic conductivity, but also could act as coreaction accelerator to speed up the reduction of S2O82- with plenty of SO4•- generated. Therefore, this proposed ECL immunosensor using CNNS@NH2-MIL(Fe) as signal probe and Ti3C2 as sensing matrix exhibited a significantly enhanced ECL signal and had a high sensitivity and excellent selectivity for cTn-I. Consequently, this multiple signal amplification strategy provided an effective method for trace protein ultrasensitive detection in ECL bioanalysis.
               
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