Awan, R. J., Ertekin, Z. , Çitoğlu, S., Duran, H., Arshad, S. N. and Symes, M. D. (2026) Hollow nickel ferrite nanofibers templated using waste expanded polystyrene as electrocatalysts of the hydrogen evolution reaction. [Data Collection]

Collection description

The electrochemical hydrogen evolution reaction is a process of central importance to a future hydrogen economy and the de-fossilization of various industrial processes. To operate with high efficiency, electrocatalysts are required for this reaction, of which Pt is the best known to date. However, due to its scarcity and the ongoing environmental cost of mining precious metals, the development of alternatives based on first row transition metals is an area of very intense interest. Whilst the performance of such earth-abundant catalysts cannot compete with Pt on an atom-for-atom basis, engineering the morphology of first row transition metal catalysts can produce significant improvements in performance relative to the bulk solids. Herein, we highlight one such example, whereby multichannel carbon nanofibers (formed using waste polystyrene as a key component) were used to template the formation of hollow NiFe2O4 nanofibers with a surface area (167 m²/g), which was nearly double that of pristine NiFe2O4 (81 m²/g). The material was thoroughly characterized by a range of methods and was found to exhibit significantly enhanced activity for the hydrogen evolution reaction: in linear sweep voltammetry, the porous hollow NiFe2O4 nanofibers required an overpotential of 178 ± 3 mV to deliver a current density of 50 mA cm−2, compared to 342 ± 2 mV for the pristine NiFe2O4 material. The results showcase the advantages of morphological control of catalysts for improving hydrogen evolution activity.

Funding:	The Royal Society (ROYSOC) [URF\R\211007] Engineering and Physical Sciences Research Council (EPSRC) [EP/W033135/1]
Keywords:	Electrospinning; polystyrene; hollow nanofiber; nickel ferrite; hydrogen evolution reaction
College / School:	College of Science and Engineering > School of Chemistry
Date Deposited:	15 Jun 2026 16:49
URI:	https://researchdata.gla.ac.uk/id/eprint/2309
Additional details Additional details Type of data: Spreadsheet Collection period: From To July 2024 June 2025 Date: 15 June 2026 Additional information: Additional funding information: King Fahd University of Petroleum and Minerals ECR251-MSE-354, No. EC2617 Resource language: English Data Publisher: University of Glasgow Copyright holders: University of Glasgow Last Modified: 15 Jun 2026 16:49

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