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Enhanced photocatalytic hydrogen evolution via ball-milled PtO2/TiO2 heterojunction photocatalyst: an alternative approach for efficient energy production

Enhanced photocatalytic hydrogen evolution via ball-milled PtO2/TiO2 heterojunction photocatalyst: an alternative approach for efficient energy production
Enhanced photocatalytic hydrogen evolution via ball-milled PtO2/TiO2 heterojunction photocatalyst: an alternative approach for efficient energy production

A novel PtO2/TiO2 heterojunction photocatalyst was synthesized via ball milling and investigated for its potential in photocatalytic hydrogen production. The effects of PtO2 loading, catalyst concentration, and sacrificial agent concentration on the hydrogen evolution rate (HER) were systematically evaluated. The results indicate that increasing the PtO2 concentration in the catalyst significantly enhances the hydrogen production rate, reaching a maximum value of approximately 54 mmol∙h−1∙g−1 at a PtO2 concentration of 20 wt%. The effect of the sacrificial agent concentration on the hydrogen production exhibited a Langmuir-Hinshelwood behavior with constant hydrogen production rates at sacrificial agent concentrations greater than 2.5 M. The experimental results were described by a kinetic model to shed light on the reforming mechanism. Finally, the stability of the photocatalyst was confirmed through four consecutive cycle tests. This synergistic integration of experimental and modelling analyses provides a robust platform for uncovering mechanistic details of photocatalytic hydrogen generation using a photocatalyst synthesized through a facile preparation method.

1385-8947
Ma, Ruiman
cc820a40-3ec3-40e9-bf60-9d2b969bfa9a
Williams, Gareth
d1e28662-2055-42a8-ac86-8468bc55eb63
Muscetta, Marica
7bbcc385-fb8e-4616-80dd-2703e87b031d
Vernuccio, Sergio
4bafd7f3-0943-4f6c-bc78-b4026516ccdb
Ma, Ruiman
cc820a40-3ec3-40e9-bf60-9d2b969bfa9a
Williams, Gareth
d1e28662-2055-42a8-ac86-8468bc55eb63
Muscetta, Marica
7bbcc385-fb8e-4616-80dd-2703e87b031d
Vernuccio, Sergio
4bafd7f3-0943-4f6c-bc78-b4026516ccdb

Ma, Ruiman, Williams, Gareth, Muscetta, Marica and Vernuccio, Sergio (2025) Enhanced photocatalytic hydrogen evolution via ball-milled PtO2/TiO2 heterojunction photocatalyst: an alternative approach for efficient energy production. Chemical Engineering Journal, 507, [160228]. (doi:10.1016/j.cej.2025.160228).

Record type: Article

Abstract

A novel PtO2/TiO2 heterojunction photocatalyst was synthesized via ball milling and investigated for its potential in photocatalytic hydrogen production. The effects of PtO2 loading, catalyst concentration, and sacrificial agent concentration on the hydrogen evolution rate (HER) were systematically evaluated. The results indicate that increasing the PtO2 concentration in the catalyst significantly enhances the hydrogen production rate, reaching a maximum value of approximately 54 mmol∙h−1∙g−1 at a PtO2 concentration of 20 wt%. The effect of the sacrificial agent concentration on the hydrogen production exhibited a Langmuir-Hinshelwood behavior with constant hydrogen production rates at sacrificial agent concentrations greater than 2.5 M. The experimental results were described by a kinetic model to shed light on the reforming mechanism. Finally, the stability of the photocatalyst was confirmed through four consecutive cycle tests. This synergistic integration of experimental and modelling analyses provides a robust platform for uncovering mechanistic details of photocatalytic hydrogen generation using a photocatalyst synthesized through a facile preparation method.

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e-pub ahead of print date: 3 February 2025
Published date: 10 February 2025
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Identifiers

Local EPrints ID: 499178
URI: http://eprints.soton.ac.uk/id/eprint/499178
DOI: doi:10.1016/j.cej.2025.160228
ISSN: 1385-8947
PURE UUID: a174b5a1-2622-4e5d-833e-e7e30cd2818e
ORCID for Sergio Vernuccio: ORCID iD orcid.org/0000-0003-1254-0293

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Date deposited: 11 Mar 2025 17:37
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Ruiman Ma
Author: Gareth Williams
Author: Marica Muscetta
Author: Sergio Vernuccio ORCID iD

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