Iron oxide nanozymes as versatile analytical tools: an overview of their application as detection technique

Bioanalysis. 2024 Nov 26:1-18. doi: 10.1080/17576180.2024.2415779. Online ahead of print.

Abstract

Iron oxide nanozymes (IONzymes) have become fundamental components in various analyte detection methodologies such as colorimetric, electrochemistry, fluorescence and luminescence. Their tunability, stability and the possibility of modification, alongside their ability to mimic the catalytic properties of natural enzymes like peroxidase, render them invaluable in analytical chemistry. This review explores the diverse applications of IONzymes across analytical chemistry, with a particular highlighting on their roles in different detection techniques and their potential in biomedical and diagnostic applications. This information would be valuable for researchers and practitioners in the fields of analytical chemistry, biochemistry, biotechnology and materials science who are interested in applying IONzymes in their work. In essence, this review article on iron oxide nanozymes in analytical chemistry would serve as a valuable resource for researchers, educators and industry professionals, offering insights, guidance and inspiration for further study and application of this promising class of nanomaterials.

Keywords: biosensors; biosynthesis; chemical synthesis; iron oxide nanozymes (IONzymes); magnatic nanoparticles; nanocatalyst.

Plain language summary

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Publication types

  • Review