Coke-free methane dry reforming over nano-sized NiO-CeO2 solid solution after exsolution

Siva P. Padi; Lee Shelly; Eswaravara P. Komarala; Danielle Schweke; Shmuel Hayun; Brian A. Rosen

doi:https://doi.org/10.1016/j.catcom.2020.105951

Coke-free methane dry reforming over nano-sized NiO-CeO₂ solid solution after exsolution

Siva P. Padi, Lee Shelly, Eswaravara P. Komarala, Danielle Schweke, Shmuel Hayun, Brian A. Rosen

Tel Aviv University, Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

Exsolution as a method for catalyst preparation is generally only studied in perovskites or similar systems, which puts a constraint on the catalyst support composition, owing to size and charge balance effects. We show that Ni nanoparticle growth occurs via the exsolution mechanism from a NiO-CeO₂ solid solution with the fluorite structure to form the supported Ni/CeO₂ catalyst. This supported catalyst showed high methane dry reforming activity and coke-free performance at 800 °C and using 50 vol% CH₄/50 vol% CO₂ feed gas composition and 5000 Lkg_cat⁻¹ h⁻¹. The use of solid-solutions such as these can therefore expand the variety of catalyst supports which could provide coke-free performance under dry reforming reaction conditions.

Original language	English
Article number	105951
Journal	Catalysis Communications
Volume	138
DOIs	https://doi.org/10.1016/j.catcom.2020.105951
State	Published - 15 Apr 2020

Keywords

Ceria
Coke-free catalyst
Methane dry reforming
Solid-phase crystallization

All Science Journal Classification (ASJC) codes

General Chemistry
Process Chemistry and Technology
Catalysis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

https://doi.org/10.1016/j.catcom.2020.105951

Cite this

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title = "Coke-free methane dry reforming over nano-sized NiO-CeO2 solid solution after exsolution",

abstract = "Exsolution as a method for catalyst preparation is generally only studied in perovskites or similar systems, which puts a constraint on the catalyst support composition, owing to size and charge balance effects. We show that Ni nanoparticle growth occurs via the exsolution mechanism from a NiO-CeO2 solid solution with the fluorite structure to form the supported Ni/CeO2 catalyst. This supported catalyst showed high methane dry reforming activity and coke-free performance at 800 °C and using 50 vol% CH4/50 vol% CO2 feed gas composition and 5000 Lkgcat−1 h−1. The use of solid-solutions such as these can therefore expand the variety of catalyst supports which could provide coke-free performance under dry reforming reaction conditions.",

keywords = "Ceria, Coke-free catalyst, Methane dry reforming, Solid-phase crystallization",

author = "Padi, {Siva P.} and Lee Shelly and Komarala, {Eswaravara P.} and Danielle Schweke and Shmuel Hayun and Rosen, {Brian A.}",

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T1 - Coke-free methane dry reforming over nano-sized NiO-CeO2 solid solution after exsolution

AU - Padi, Siva P.

AU - Shelly, Lee

AU - Komarala, Eswaravara P.

AU - Schweke, Danielle

AU - Hayun, Shmuel

AU - Rosen, Brian A.

PY - 2020/4/15

Y1 - 2020/4/15

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AB - Exsolution as a method for catalyst preparation is generally only studied in perovskites or similar systems, which puts a constraint on the catalyst support composition, owing to size and charge balance effects. We show that Ni nanoparticle growth occurs via the exsolution mechanism from a NiO-CeO2 solid solution with the fluorite structure to form the supported Ni/CeO2 catalyst. This supported catalyst showed high methane dry reforming activity and coke-free performance at 800 °C and using 50 vol% CH4/50 vol% CO2 feed gas composition and 5000 Lkgcat−1 h−1. The use of solid-solutions such as these can therefore expand the variety of catalyst supports which could provide coke-free performance under dry reforming reaction conditions.

KW - Ceria

KW - Coke-free catalyst

KW - Methane dry reforming

KW - Solid-phase crystallization

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