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Concerted oxygen diffusion across heterogeneous oxide interfaces for intensified propane dehydrogenation

Sai Chen, Ran Luo, Zhi‐Jian Zhao, Chunlei Pei, Yiyi Xu, Zhenpu Lu, Chengjie Zhao, Hongbo Song, Jinlong Gong

2023Nature Communications58 citationsDOIOpen Access PDF

Abstract

Abstract Propane dehydrogenation (PDH) is an industrial technology for direct propylene production which has received extensive attention in recent years. Nevertheless, existing non-oxidative dehydrogenation technologies still suffer from the thermodynamic equilibrium limitations and severe coking. Here, we develop the intensified propane dehydrogenation to propylene by the chemical looping engineering on nanoscale core-shell redox catalysts. The core-shell redox catalyst combines dehydrogenation catalyst and solid oxygen carrier at one particle, preferably compose of two to three atomic layer-type vanadia coating ceria nanodomains. The highest 93.5% propylene selectivity is obtained, sustaining 43.6% propylene yield under 300 long-term dehydrogenation-oxidation cycles, which outperforms an analog of industrially relevant K-CrO x /Al 2 O 3 catalysts and exhibits 45% energy savings in the scale-up of chemical looping scheme. Combining in situ spectroscopies, kinetics, and theoretical calculation, an intrinsically dynamic lattice oxygen “donator-acceptor” process is proposed that O 2- generated from the ceria oxygen carrier is boosted to diffuse and transfer to vanadia dehydrogenation sites via a concerted hopping pathway at the interface, stabilizing surface vanadia with moderate oxygen coverage at pseudo steady state for selective dehydrogenation without significant overoxidation or cracking.

Topics & Concepts

DehydrogenationCatalysisPropaneChemical looping combustionChemical engineeringMaterials scienceOxideOxygenChemistryRedoxPhotochemistryInorganic chemistryOrganic chemistryEngineeringCatalysis and Oxidation ReactionsCatalytic Processes in Materials ScienceZeolite Catalysis and Synthesis
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