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Catalytic Materials for Hydrogen Production and Electro-oxidation Reactions
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Editors: Moisés R. Cesário, Cédric Gennequin, Edmond Abi-Aad, Daniel A. de Macedo

Series Title: Frontiers in Ceramic Science

Catalytic Materials for Hydrogen Production and Electro-oxidation Reactions

Volume 2
eBook: US $79 Special Offer (PDF + Printed Copy): US $171
Printed Copy: US $131
Library License: US $316
ISSN: 2542-5250 (Print)
ISSN: 2542-5269 (Online)
ISBN: 978-1-68108-759-7 (Print)
ISBN: 978-1-68108-758-0 (Online)
Year of Publication: 2018
DOI: 10.2174/97816810875801180201
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Introduction

The implementation of hydrogen production processes on an industrial scale requires a comprehensive understanding of the chemical proprieties of catalytic materials and the applications such materials in electrocatalysis. This volume presents information about catalytic materials for hydrogen production and hydrogen valorization in electro-oxidation reactions. Chapters emphasize on materials for classical steam, CO2 sorption enhanced steam reforming and dry reforming for hydrogen production. The hydrogen electro-oxidation reaction in anodes of Solid Oxide Fuel Cells (SOFCs) is also explained. Chapters have been contributed by experts in industrial chemistry, adding a valuable perspective for readers. This volume is essential to chemical engineering researchers and industrial professionals interested in hydrogen production systems and the science behind the materials driving the reactions in key processes.


eBook: US $79 Special Offer: US $171 Printed Copy: US $131 Library License: US $316

Contributors

Editor(s):
Moisés R. Cesário
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Cédric Gennequin
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Edmond Abi-Aad
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Daniel A. de Macedo
Department of Materials Engineering
Federal University of Paraíba
João Pessoa - PB
Brazil



Contributor(s):
Allan J. M. de Araújo
Department of Materials Engineering
Federal University of Rio Grande do Norte
Natal
Brazil


Braúlio S. Barros
Department of Mechanical Engineering
Federal University of Pernambuco
Recife
Brazil


Carlos A. Paskocimas
Department of Materials Engineering
Federal University of Rio Grande do Norte
Natal
Brazil


Cédric Gennequin
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Claire Courson
Institut de Chimie et Procédés pour l'Energie, l'Environnement et la Santé (ICPEES)-UMR CNRS 7515
University of Strasbourg
Strasbourg
France


Daniel A. de Macedo
Department of Materials Engineering
Federal University of Paraíba
João Pessoa
Brazil


Dong-Kyun Seo
School of Molecular Sciences
Arizona State University
Tempe
USA


Dulce M. de A. Melo
Department of Chemistry
Federal University of Rio Grande do Norte
Natal
Brazil


Edmond Abi-Aad
Department of Chemistry
University of the Littoral Opal Coast
Dunkerque
France


Esa Turpeinen
Environmental and Chemical Engineering, Faculty of Technology
University of Oulu
Oulu
Finland


Francisco J.A Loureiro
Department of Mechanical Engineering
University of Aveiro
Aveiro
Portugal


Gabriel M. Santos
Department of Petroleum Engineering
University of Campinas, São Paulo
Brazil


Gheorghita Mitran
Laboratory of Chemical Technology and Catalysis, Department of Organic Chemistry, Biochemistry & Catalysis, Faculty of Chemistry
University of Bucharest
Bucharest
Romania


Glageane S. Souza
Department of Materials Engineering
Federal University of Paraíba
João Pessoa
Brazil


Haingomalala L. Tidahy
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Irina E. Kuritsyna
Institute of Solid State Physics RAS
Chernogolovka
Russia


Jane Estephane
Department of Chemical Engineering
University of Balamand
El Koura
Lebanon


João Paulo de F. Grilo
Department of Materials and Ceramic Engineering
University of Aveiro
Aveiro
Portugal


Madona Labaki
Laboratory of Physical–Chemistry of Materials (LPCM/PR2N)
Lebanese University
Fanar
Lebanon


Moisés R. Cesario
Unit of Environmental Chemistry and Interactions with Living Organisms
University of the Littoral Opal Coast
Dunkerque
France


Nikolay V. Lyskov
Department of Chemical Engineering
Institute of Problems of Chemical Physics RAS
Russia


Octavian-Dumitru Pavel
Laboratory of Chemical Technology and Catalysis, Department of Organic Chemistry, Biochemistry & Catalysis
University of Bucharest
Bucharest
Romania


Prem Seelam
Environmental and Chemical Engineering, Faculty of Technology
University of Oulu
Oulu
Finland


Rubens M. Nascimento
Department of Materials Engineering
Federal University of Rio Grande do Norte
Natal
Brazil


Samer Aouad
Department of Chemistry, Faculty of Sciences
University of Balamand
El Koura
Lebanon


Satu Ojala
Environmental and Chemical Engineering, Faculty of Technology
University of Oulu
Oulu
Finland


Vladislav A. Kolotygin
Institute of Solid State Physics RAS
Chernogolovka
Russia



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