Frontiers in Chemistry (Jul 2020)

Hierarchical Porous Graphene–Iron Carbide Hybrid Derived From Functionalized Graphene-Based Metal–Organic Gel as Efficient Electrochemical Dopamine Sensor

  • Eleni C. Vermisoglou,
  • Petr Jakubec,
  • Ondřej Malina,
  • Vojtěch Kupka,
  • Andreas Schneemann,
  • Andreas Schneemann,
  • Roland A. Fischer,
  • Radek Zbořil,
  • Kolleboyina Jayaramulu,
  • Kolleboyina Jayaramulu,
  • Kolleboyina Jayaramulu,
  • Michal Otyepka

DOI
https://doi.org/10.3389/fchem.2020.00544
Journal volume & issue
Vol. 8

Abstract

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A metal–organic gel (MOG) similar in constitution to MIL-100 (Fe) but containing a lower connectivity ligand (5-aminoisophthalate) was integrated with an isophthalate functionalized graphene (IG). The IG acted as a structure-directing templating agent, which also induced conductivity of the material. The MOG@IG was pyrolyzed at 600°C to obtain MGH-600, a hybrid of Fe/Fe3C/FeOx enveloped by graphene. MGH-600 shows a hierarchical pore structure, with micropores of 1.1 nm and a mesopore distribution between 2 and 6 nm, and Brunauer–Emmett–Teller surface area amounts to 216 m2/g. Furthermore, the MGH-600 composite displays magnetic properties, with bulk saturation magnetization value of 130 emu/g at room temperature. The material coated on glassy carbon electrode can distinguish between molecules with the same oxidation potential, such as dopamine in presence of ascorbic acid and revealed a satisfactory limit of detection and limit of quantification (4.39 × 10−7 and 1.33 × 10−6 M, respectively) for the neurotransmitter dopamine.

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