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A Single Model for the Thermodynamics and Kinetics of Metal Exsolution from Perovskite Oxides

Alexander Bonkowski, Matthew J. Wolf, Ji Wu, Stephen C. Parker, Andreas Klein, Roger A. De Souza

2024Journal of the American Chemical Society35 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Exsolution has emerged as an outstanding route for producing oxide-supported metal nanoparticles. For AB O 3 -perovskite oxides, various late transition-metal cations can be substituted into the lattice under oxidizing conditions and exsolved as metal nanoparticles after reduction. A consistent and comprehensive description of the point-defect thermodynamics and kinetics of this phenomenon is lacking, however. Herein, supported by hybrid density-functional-theory calculations, we propose a single model that explains diverse experimental observations, such as why substituent transition-metal cations (but not host cations) exsolve from perovskite oxides upon reduction; why different substituent transition-metal cations exsolve under different conditions; why the metal nanoparticles are embedded in the surface; why exsolution occurs surprisingly rapidly at relatively low temperatures; and why the reincorporation of exsolved species involves far longer times and much higher temperatures. Our model’s foundation is that the substituent transition-metal cations are reduced to neutral species within the perovskite lattice as the Fermi level is shifted upward within the bandgap upon sample reduction. The calculations also indicate unconventional influences of oxygen vacancies and A -site vacancies. Our model thus provides a fundamental basis for improving existing, and creating new, exsolution-generated catalysts.

Topics & Concepts

ChemistryKineticsPerovskite (structure)ThermodynamicsMetalPhysical chemistryCrystallographyOrganic chemistryPhysicsQuantum mechanicsElectronic and Structural Properties of OxidesAdvancements in Solid Oxide Fuel CellsMagnetic and transport properties of perovskites and related materials
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