Spinel oxide electrocatalysts supported on carbon nanofibers (CNFs), denoted as and NiMn2O4/CNF and NiCo2O4/CNF, are investigated for the oxygen evolution reaction (OER) in alkaline electrolyte. NiCo2O4/CNF and NiMn2O4/CNF are prepared according to an optimized electrospinning method using polyacrylonitrile (PAN) as carbon nanofibers precursor. After the thermal treatment at 900 degrees C for 1 h in the presence of helium and the subsequent one at 350 degrees C for 1 h in air, nanosized metal oxides with a spinel structure supported on carbon nanofibers are obtained. The physico-chemical investigation shows relevant difference in the crystallite size (9 nm for the NiCo2O4/CNF and 20 nm for the NiMn2O4/CNF) and a more homogeneous distribution for NiMn2O4 supported on carbon nanofibers. These characteristics derive from the different catalytic effects of Co and Mn during the thermal treatment as demonstrated by thermal analysis. The OER activity of NiCo2O4/CNF and NiMn2O4/CNF is studied in a single cell based on a zero gap anion exchange membrane-electrode assembly (MEA). The NiMn2O4/CNF shows a better mass activity than NiCo2O4/CNF at 50 degrees C (116 A g(-1) @ 1.5 V and 362 A g(-1) @ 1.8 V vs. 39 A g(-1) @ 1.5 V and 253 A g(-1) @ 1.8 V) but lower current density at specific potentials. This is the consequence of a lower concentration of the active phase on the support resulting from the need to mitigate the particle growth in NiMn2O4/CNF. (C) 2019 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.