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Fe-functionalised N-doped Ti3C2Tz MXene for the alkaline oxygen reduction reaction

Fe-functionalised N-doped Ti3C2Tz MXene for the alkaline oxygen reduction reaction
Fe-functionalised N-doped Ti3C2Tz MXene for the alkaline oxygen reduction reaction

Alkaline fuel cells are promising technologies to decarbonise current energy systems. One of the main advantages they present is that non-expensive metals can be used as catalysts, reducing overall manufacturing costs. A promising family of electrocatalysts for the oxygen reduction reaction, which is the most difficult reaction in most fuel cell systems, are Fe–N–C catalysts, which have shown performance close to platinum-based catalysts. Coupling these with MXenes is a promising alternative, as MXenes can act as supports that will homogeneously disperse the metal species and catalyse the formation of carbon species that increase performance for the ORR. In this paper, we intercalate Fe species and urea in Ti3C2Tz MXene and fully characterise the materials using a range of techniques, including Mössbauer spectroscopy. The materials are then tested for the ORR in alkaline media, with one sample (Ti3C2-U50-Fe-800) showing excellent performance and stability in 0.1 M KOH, including an onset potential of 0.93 V vs. RHE, an electron transfer number of 3.8 at 0.8 V vs. RHE, a Tafel slope of 66 mV dec−1, and a small shift of 37 mV for the half-wave potential for linear sweep voltammetry before and after 2000 cycles. This performance is attributed to the high nitrogen content that favourably forms pyridinic N species on this sample, and the MXene support, which disperses the Fe species and catalyses the formation of favourable carbon materials.

454-466
Bouscarrat, Luc
2eef42e9-c779-409f-aeb8-fb0c1071af8e
Scrimshire, Alex
ccda4b4e-8959-402e-8340-1b640032a280
Bingham, Paul
53c5a396-7179-4300-9e9b-15720fe7a85f
Gupta, Gaurav
98895f74-a842-44b9-a4c1-66e452961670
Dawson, Richard
e7b551fc-e0fa-42d1-97e0-92d7addc1693
Bimbo, Nuno
53d9fc24-e2c1-4e2d-8d75-8dc640d8adda
Bouscarrat, Luc
2eef42e9-c779-409f-aeb8-fb0c1071af8e
Scrimshire, Alex
ccda4b4e-8959-402e-8340-1b640032a280
Bingham, Paul
53c5a396-7179-4300-9e9b-15720fe7a85f
Gupta, Gaurav
98895f74-a842-44b9-a4c1-66e452961670
Dawson, Richard
e7b551fc-e0fa-42d1-97e0-92d7addc1693
Bimbo, Nuno
53d9fc24-e2c1-4e2d-8d75-8dc640d8adda

Bouscarrat, Luc, Scrimshire, Alex, Bingham, Paul, Gupta, Gaurav, Dawson, Richard and Bimbo, Nuno (2026) Fe-functionalised N-doped Ti3C2Tz MXene for the alkaline oxygen reduction reaction. Energy Advances, 5 (4), 454-466. (doi:10.1039/d5ya00371g).

Record type: Article

Abstract

Alkaline fuel cells are promising technologies to decarbonise current energy systems. One of the main advantages they present is that non-expensive metals can be used as catalysts, reducing overall manufacturing costs. A promising family of electrocatalysts for the oxygen reduction reaction, which is the most difficult reaction in most fuel cell systems, are Fe–N–C catalysts, which have shown performance close to platinum-based catalysts. Coupling these with MXenes is a promising alternative, as MXenes can act as supports that will homogeneously disperse the metal species and catalyse the formation of carbon species that increase performance for the ORR. In this paper, we intercalate Fe species and urea in Ti3C2Tz MXene and fully characterise the materials using a range of techniques, including Mössbauer spectroscopy. The materials are then tested for the ORR in alkaline media, with one sample (Ti3C2-U50-Fe-800) showing excellent performance and stability in 0.1 M KOH, including an onset potential of 0.93 V vs. RHE, an electron transfer number of 3.8 at 0.8 V vs. RHE, a Tafel slope of 66 mV dec−1, and a small shift of 37 mV for the half-wave potential for linear sweep voltammetry before and after 2000 cycles. This performance is attributed to the high nitrogen content that favourably forms pyridinic N species on this sample, and the MXene support, which disperses the Fe species and catalyses the formation of favourable carbon materials.

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Bouscarrat_et_al_Fe_MXenes_R1 - Accepted Manuscript
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Accepted/In Press date: 22 March 2026
e-pub ahead of print date: 23 March 2026
Additional Information: Publisher Copyright: This journal is © The Royal Society of Chemistry, 2026

Identifiers

Local EPrints ID: 511049
URI: http://eprints.soton.ac.uk/id/eprint/511049
DOI: doi:10.1039/d5ya00371g
PURE UUID: 1df3c7fb-948e-4e2a-bea4-6e6dea471ae7
ORCID for Nuno Bimbo: ORCID iD orcid.org/0000-0001-8740-8284

Catalogue record

Date deposited: 29 Apr 2026 16:41
Last modified: 05 May 2026 02:03

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Contributors

Author: Luc Bouscarrat
Author: Alex Scrimshire
Author: Paul Bingham
Author: Gaurav Gupta
Author: Richard Dawson
Author: Nuno Bimbo ORCID iD

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