Litcius/Paper detail

Encapsulation of Platinum by Titania under an Oxidative Atmosphere: Contrary to Classical Strong Metal–Support Interactions

Shaofeng Liu, Haifeng Qi, Junhui Zhou, Wei Xu, Yiming Niu, Bingsen Zhang, Yang Zhao, Wei Liu, Zhimin Ao, Zhichong Kuang, Lin Li, Meng Wang, Junhu Wang

2021ACS Catalysis94 citationsDOI

Abstract

Classical strong metal–support interaction (SMSI) has attracted intensive attention in the heterogeneous catalysis field; however, its crystalline TiOx overlayer and reversible feature often curtail the effect of classical SMSI on enhancing the catalytic performance of supported metal catalysts in oxidation reactions, especially at elevated temperatures. Here, we report the evidence that Pt nanoparticles can be encapsulated by an amorphous and permeable TiOx cover layer in Pt/TiO2 catalysts under an oxidative atmosphere, where the keys are the utilization of melamine, followed by annealing in nitrogen flow and further calcination at 800 °C in air. More importantly, the formed overlayer is stabilized against re-oxidation at 400–600 °C in air, in sharp contrast to the retreat of the TiOx overlayer by subsequent oxidation treatment in classical SMSI. Such an extraordinary strategy is further demonstrated on titania-supported Pd and Rh nanoparticles, paving a promising way for designing supported platinum group metal-based catalysts with high activity and stability.

Topics & Concepts

OverlayerCatalysisCalcinationNanoparticlePlatinumMaterials scienceNoble metalChemical engineeringAmorphous solidMetalHeterogeneous catalysisAnnealing (glass)Platinum nanoparticlesCatalyst supportChemistryNanotechnologyInorganic chemistryPhysical chemistryOrganic chemistryMetallurgyEngineeringCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionCatalysis and Oxidation Reactions