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Platinum oxide formation under oxygen evolution reaction conditions

Electrocatalyst degradation driven by oxidation is a major barrier to a sustainable energy society. Here, the authors study the oxidation of Pt(111), a prominent model system, under oxygen evolution conditions, resolving self-limiting layer-by-layer growth of a sub-nanometer disordered PtO₂ film.

Leon Jacobse
Ralf Schuster
Andreas Stierle
ResearchOpen Access14 May 2026
Nature Communications

Volume: 17, P: 1-9
Author Correction: Interfacial solvation pre-organizes the transition state of the oxygen evolution reaction

Ricardo Martínez-Hincapié
Janis Timoshenko
Sebastian Z. Oener
Amendments and CorrectionsOpen Access15 Oct 2025
Nature Chemistry

Volume: 18, P: 975
Interfacial solvation pre-organizes the transition state of the oxygen evolution reaction

The oxygen evolution reaction proceeds over a surface that undergoes (frustrated) phase transitions to accommodate bias-dependent excess charge. Now it has been shown that this excess charge is intimately linked to the interfacial solvation of ions and the pre-organization of the transition state, providing insight into intrinsic catalyst activities.

Ricardo Martínez-Hincapié
Janis Timoshenko
Sebastian Z. Oener
ResearchOpen Access03 Sept 2025
Nature Chemistry

Volume: 18, P: 835-843
In-situ probing of the Fischer-Tropsch reaction on Co single crystal surfaces up to 1 bar

Two Co single crystal surfaces remain metallic up to 1 bar during Fischer-Tropsch synthesis. The observed intermediates support the carbide mechanism as the reaction pathway. By adding and removing CO we can follow the dynamics of the (dis)appearance of intermediates.

Patrick Lömker
David Degerman
Anders Nilsson
ResearchOpen Access24 Jan 2025
Nature Communications

Volume: 16, P: 1-10
The dualism between adatom- and vacancy-based single crystal growth models

In homoepitaxial crystal growth, four established modes describe atom deposition on a single crystal surface. Here the authors present a model that shows that, for each adatom growth mode, there exists an analogous but inverse version for vacancy growth. This also applies to combined growth.

Marcel J. Rost
Leon Jacobse
Marc T. M. Koper
ResearchOpen Access20 Nov 2019
Nature Communications

Volume: 10, P: 1-7
Correlation of surface site formation to nanoisland growth in the electrochemical roughening of Pt(111)

Understanding the structural stability of platinum surfaces upon oxidation and reduction conditions has proved challenging. A correlation of surface site formation to nanoisland growth in the electrochemical roughening of Pt(111) is now identified.

Leon Jacobse
Yi-Fan Huang
Marcel J. Rost
Research12 Feb 2018
Nature Materials

Volume: 17, P: 277-282

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Platinum oxide formation under oxygen evolution reaction conditions

Author Correction: Interfacial solvation pre-organizes the transition state of the oxygen evolution reaction

Interfacial solvation pre-organizes the transition state of the oxygen evolution reaction

In-situ probing of the Fischer-Tropsch reaction on Co single crystal surfaces up to 1 bar

The dualism between adatom- and vacancy-based single crystal growth models

Correlation of surface site formation to nanoisland growth in the electrochemical roughening of Pt(111)

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