Abstract

Heterostructured materials constructed from different dimension of building blocks have drawn extensive interest for the integrated structural advantages of each individuals. In recent years, though various of carbon-based MOFs composites have been reported, novel hierarchical hybrids with unique morphology, structure and superior performance are still highly expected. In this study, quasi-2D Ni-based organic frames (Ni-MOF) nanosheets were easily obtained for the confinement effect of the cross-linked CNTs networks, and the Ni-MOF@CNTs hybrids with unique 3D heterostructures was then facilely in-situ prepared at room temperature. Benefiting from the large specific surface area of Ni-MOF, excellent conductivity of CNTs and the synergistic effect, the as-synthesized 3D Ni-MOF@CNTs hybrids showed superior electrochemical activity toward the oxidation and sensing of highly toxic environmental contaminant bisphenol A (BPA). Ultra-low detection limit of 0.35 nM and high sensitivity of 284.64 μA μM−1 cm-2 for BPA was achieved at the 3D Ni-MOF@CNTs sensing interface, and a practical electrochemical sensing platform was then successfully developed for the detection of BPA in various of real samples, including receipts, movie tickets, and polycarbonate water buckets, and showed satisfied result with chromatographic analysis.

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