Issue 4, 2017

Mechanism and kinetics of the electrocatalytic reaction responsible for the high cost of hydrogen fuel cells

Abstract

The sluggish oxygen reduction reaction (ORR) is a major impediment to the economic use of hydrogen fuel cells in transportation. In this work, we report the full ORR reaction mechanism for Pt(111) based on Quantum Mechanics (QM) based Reactive metadynamics (RμD) simulations including explicit water to obtain free energy reaction barriers at 298 K. The lowest energy pathway for 4 e water formation is: first, *OOH formation; second, *OOH reduction to H2O and O*; third, O* hydrolysis using surface water to produce two *OH and finally *OH hydration to water. Water formation is the rate-determining step (RDS) for potentials above 0.87 Volt, the normal operating range. Considering the Eley–Rideal (ER) mechanism involving protons from the solvent, we predict the free energy reaction barrier at 298 K for water formation to be 0.25 eV for an external potential below U = 0.87 V and 0.41 eV at U = 1.23 V, in good agreement with experimental values of 0.22 eV and 0.44 eV, respectively. With the mechanism now fully understood, we can use this now validated methodology to examine the changes upon alloying and surface modifications to increase the rate by reducing the barrier for water formation.

Graphical abstract: Mechanism and kinetics of the electrocatalytic reaction responsible for the high cost of hydrogen fuel cells

Supplementary files

Article information

Article type
Communication
Submitted
24 নভে. 2016
Accepted
20 ডিসে. 2016
First published
21 ডিসে. 2016
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2017,19, 2666-2673

Mechanism and kinetics of the electrocatalytic reaction responsible for the high cost of hydrogen fuel cells

T. Cheng, W. A. Goddard, Q. An, H. Xiao, B. Merinov and S. Morozov, Phys. Chem. Chem. Phys., 2017, 19, 2666 DOI: 10.1039/C6CP08055C

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