Frontiers in Bioengineering and Biotechnology (Sep 2022)

Mn3+/Mn4+ ion-doped carbon dots as fenton-like catalysts for fluorescence dual-signal detection of dopamine

  • Peide Zhu,
  • Xuelin Zhao,
  • Xuelin Zhao,
  • Yuqi Zhang,
  • Yinping Liu,
  • Ziyi Zhao,
  • Ziji Yang,
  • Xinzhu Liu,
  • Weiye Zhang,
  • Zixuan Guo,
  • Xiao Wang,
  • Yingchun Niu,
  • Meng Xu

DOI
https://doi.org/10.3389/fbioe.2022.964814
Journal volume & issue
Vol. 10

Abstract

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Carbon dots (CDs), a new zero-dimensional material, have ignited a revolution in the fields of sensing, bioimaging, and biomedicine. However, the difficulty of preparing CDs with Fenton-like catalytic properties has seriously hindered their application in the diagnosis of oxidation/reduction biomolecules or metal ions. Here, an innovative method was successfully established to synthesize Mn3+/Mn4+ ion-doped blue-green fluorescent CDs with Fenton-like catalytic properties using manganese acetate as the manganese source. Specifically, the CDs prepared here were equipped with functional groups of -COOH, NH2, C=O, and Mn-O, offering the possibility to function as a fluorescence sensor. More importantly, the introduction of manganese acetate resulted in the preparation of CDs with Fenton-like catalytic properties, and the dual-signal fluorescence detection of dopamine (DA) was realized with linear ranges of 100–275 nM and 325–525 nM, and the detection limits were 3 and 12 nM, respectively. In addition, due to the Fenton-like catalytic activity of Mn3+/Mn4+ ion-doped CDs, the material has broad application prospects in the detection of oxidation/reduction biomolecules or metal ions related to disease diagnosis and prevention.

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