Issue 45, 2022

Modulating between 2e and 4e pathways in the oxygen reduction reaction with laser-synthesized iron oxide-grafted nitrogen-doped carbon

Abstract

In this study, we demonstrate the tuning of the oxygen reduction reaction (ORR) using iron/iron oxide nanoparticle grafted laser-patterned nitrogen-doped carbon (LP-NC) electrodes. Depending on the preparation route, i.e. addition of a molecular Fe(NO3)2 precursor before (route 1) or after pre-carbonization (route 2) of the citric acid/urea precursors, either the 4e or the 2e pathway in the ORR is facilitated leading to either H2O or H2O2 as a reaction product, respectively. The kinetic reaction conditions afford mixed valence metal oxide nanoparticles embedded in LP-NC in the form of either Fe2O3/Fe or Fe2O3/FeO/Fe, respectively, facilitated by an in situ carbothermal reduction during the laser-induced carbonization. In HR(S)TEM analysis we found evidence for the occurrence of Fe2O3 in the η- or α-phase, depending on the preparation route. Reciprocally, the graphitization is also affected by the preparation route leading to either homogeneous graphitization or a locally graphitized shell structures around the nanoparticles. In the 4e mediated ORR facilitated by η-Fe2O3/Fe@LP-NC onset potentials as low as 0.70 V (vs. RHE) with a H2O2 production efficiency of 4% and 10% in alkaline and neutral electrolyte, respectively, were determined. On the other hand, α-Fe2O3/FeO/Fe@LP-NC presents an onset potential for the 2e mediated ORR as low as 0.77 V with a H2O2 production efficiency of nearly 80%. The changes in selectivity and physicochemical properties of the electrocatalysts by applying simple modifications in the synthetic route point to laser-patterning as a very promising route to scale up designer electrodes for electrochemical conversion.

Graphical abstract: Modulating between 2e− and 4e− pathways in the oxygen reduction reaction with laser-synthesized iron oxide-grafted nitrogen-doped carbon

Supplementary files

Article information

Article type
Paper
Submitted
24 Jul 2022
Accepted
02 Oct 2022
First published
19 Oct 2022
This article is Open Access
Creative Commons BY license

J. Mater. Chem. A, 2022,10, 24156-24166

Modulating between 2e and 4e pathways in the oxygen reduction reaction with laser-synthesized iron oxide-grafted nitrogen-doped carbon

H. Wang, M. Jerigova, J. Hou, N. V. Tarakina, S. Delacroix, N. López-Salas and V. Strauss, J. Mater. Chem. A, 2022, 10, 24156 DOI: 10.1039/D2TA05838C

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