Catalytic amplification based on hierarchical heterogeneity bimetal-organic nanostructures with peroxidase-like activity

Anal Chim Acta. 2021 Aug 15:1173:338713. doi: 10.1016/j.aca.2021.338713. Epub 2021 May 31.

Abstract

In this paper, integrating heterometallic units and nanostructures into metal-organic frameworks (MOFs) were applied to improve the sensitivity of detecting hydrogen peroxide (H2O2) in neutral solution. The bimetal-MOFs (CuCo-BDC) and GO composite (CuCo-BDC/GO) were first synthesized via an ordinary one-step solvothermal synthesis. The CuCo-BDC/GO with admirable peroxidase-like catalytic activity could be applied to detect H2O2. The results have low detection limit of 69 nM (S/N = 3) and a wide linear detection range, from 100 nM to 3.5 mM. This is superior to recently published biosensors based on noble metal nanomaterials, which confirms CuCo-BDC/GO as the MOF electrocatalysts with high performance. The remarkable electroanalytical performance of CuCo-BDC/GO is due to the presence of numerous open metal active sites, the synergistic effect of Cu2+ and Co2+, hierarchical structure with high-specific surface areas and the marvelous electrochemical properties of GO. Therefore, CuCo-BDC/GO is a powerful candidate for detecting H2O2 in electrochemical biosensing fields. Moreover, H2O2 detection in real samples can be done with the CuCo-BDC/GO, including human serum samples. Therefore, the novel CuCo-BDC/GO is a promising catalyst that can be applied in biotechnological and environmental applications.

Keywords: Bimetallic MOF; Graphene oxide; Hydrogen peroxide; Signal amplification; Synergetic effect.

MeSH terms

  • Biosensing Techniques*
  • Catalysis
  • Humans
  • Hydrogen Peroxide
  • Metal-Organic Frameworks*
  • Nanostructures*
  • Peroxidases

Substances

  • Metal-Organic Frameworks
  • Hydrogen Peroxide
  • Peroxidases