Rational Design of Non-precious Metal Oxide Catalysts by Means of Advanced Synthetic and Promotional Routes

doi:10.3390/books978-3-0365-6163-9

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Rational Design of Non-precious Metal Oxide Catalysts by Means of Advanced Synthetic and Promotional Routes

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January 2023

308 pages

ISBN978-3-0365-6164-6 (Hardback)
ISBN978-3-0365-6163-9 (PDF)

https://doi.org/10.3390/books978-3-0365-6163-9

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This book is a reprint of the Special Issue Rational Design of Non-precious Metal Oxide Catalysts by Means of Advanced Synthetic and Promotional Routes that was published in

Chemistry & Materials Science

Engineering

Summary

This reprinted edition of the Special Issue entitled “Rational Design of Non-Precious Metal Oxide Catalysts by Means of Advanced Synthetic and Promotional Routes” covers some of the recent advances in relation to the fabrication and fine-tuning of metal oxide catalysts by means of advanced synthetic and/or promotional routes. It consists of fourteen high-quality papers on various aspects of catalysis, related to the rational design and fine-tuning strategies during some of the most relevant applications in heterogeneous catalysis, such as N₂O decomposition, the dry reforming of methane (DRM), methane combustion and partial oxidation, and selective catalytic reduction (SCR), among others.

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Keywords

solid acids; metal-oxide catalysts; tungstated zirconia; atomic layer deposition; Brønsted-acid strength; temperature-programmed desorption/thermogravimetric analysis; H–D exchange; CO hydrogenation; higher alcohols; support effects; Cu-based catalysts; ceria nanoparticles; morphological effects; Co₃O₄/CeO₂ mixed oxides, deN₂O process; ceria morphology; facet dependence; Fe₂O₃/CeO₂ mixed oxides; CO oxidation; electrospinning; fibrous catalysts; metal ion content; calcination temperature; methane partial oxidation; selective catalytic reduction (SCR); catalyst; precursor; NO_x conversion; NO decomposition; Co–Mn–Al mixed oxides; catalyst preparation; potassium promoter; nitric oxide; catalytic decomposition; potassium promoter; cobalt-based mixed oxide; DRM; nickel; cerium dioxide; transient experiments; lattice oxygen; isotopes; copper-ceria; rational design; size; shape; electronic/chemical functionalization; CO oxidation; N₂O decomposition; preferential oxidation of CO (CO-PROX); water gas shift reaction (WGSR); CO₂ hydrogenation; cobalt oxide; methane oxidation; modified alumina; magnesium oxide; nickel cobaltite; ceria; lattice distortion; oxygen mobility; ruthenium oxide; nanoparticles; electrocatalysts; sensing; arylamination reactions; adamantanyl-tethered-biphenylamines; polymer-supported catalyst; cobalt complex; Buchwald–Hartwig reaction; zinc ferrite; manganese ferrite; mesoporous materials; nanoparticles; metal oxides; electronic band structure; photocatalysis; hexavalent chromium; organic pollutants; environmental remediation; n/a