Catalytic Materials for Hydrogen Production and Electro-Oxidation Reactions.

Cover -- Title -- Biblography -- End User License Agreement -- Contents -- Foreword -- Preface -- List of Contributors -- INTRODUCTION -- Impact of Molybdena and Vanadia Mixed Based Oxides on Hydrogen Production by Steam Reforming -- Gheorghita Mitran*, 1, Dong-Kyun Seo2 and Octavian-Dumitru Pavel1 -- INTRODUCTION -- STEAM REFORMING -- Natural and Biogas Steam Reforming -- Liquid Fuels Steam Reforming -- Bio-oil Steam Reforming -- Biomass Tar Steam Reforming -- STEAM REFORMING OVER MOLYBDENA-VANADIA CATALYSTS -- CONCLUSIONS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGMENTS -- REFERENCES -- Ni/CaO.Ca12Al14O33 Based-Materials for Hydrogen Production by CO2 Sorption Enhanced Steam Methane Reforming -- Moisés R. Cesario1,*, Braúlio S. Barros2, Claire Courson3,* and Dulce M.A. Melo4 -- INTRODUCTION -- Materials Preparation -- Microwave Assisted Self-Combustion Synthesis -- Materials Characterization -- Preliminary Study with Low CaO/CaAl Ratio -- Structural, Microstructural and Textural Study with High CaO/CaAl Ratio -- CO2 Sorption -- CO2 Sorption Enhanced Steam Methane Reforming -- Long-term Reactivity -- Characterizations after Tests of CO2 Sorption Enhanced Steam Methane Reforming -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- REFERENCES -- A Review on the Dry Reforming Processes for Hydrogen Production: Catalytic Materials and Technologies -- Samer Aouad1,*, Madona Labaki2, Satu Ojala3, Prem Seelam3, Esa Turpeinen3, Cédric Gennequin4, Jane Estephane5 and Edmond Abi Aad4 -- INTRODUCTION -- Undesirable Carbon Formation Reactions -- RECENT ADVANCES IN CO2 REFORMING OF METHANE -- Thermodynamics of the DRM Reaction -- Problems Encountered During the Catalytic DRM Reaction -- Carbon Deposition -- Sintering -- Poisoning -- Oxidation -- Catalytic Dry Reforming of Methane (DRM).

Active Phase -- Supports -- Promoters -- Bulk Catalysts -- Active Phase Content or Metal Loading -- Catalysts Preparation Methods -- Thermal Pretreatment Parameters -- Dry Reforming of Methane in the Presence of Impurities -- Kinetics -- RECENT ADVANCES IN CO2 REFORMING OF ALCOHOLS -- Dry Reforming of Methanol (DRMe) -- Dry Reforming of Ethanol (DRE) -- Dry Reforming of Glycerol (DRG) -- Dry Reforming of Butanol (DRB) -- RECENT ADVANCES IN CO2 REFORMING OF TAR -- Catalytic CO2 Reforming of Tar -- Catalysts for CO2 Reforming of Tar -- RECENT DEVELOPMENTS IN PROCESS TECHNOLOGIES -- Use of Plasma -- Use of Microwaves -- Use of Electric Current -- Use of Solar Energy -- Chemical Looping Reforming -- Membrane Reactor Technology -- Ceramic Counterflow Technology -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- REFERENCES -- NiCo and NiCu Based-Materials for Hydrogen Production and Electro-oxidation Reactions -- Moisés R. Cesario1,*, Daniel A. Macedo2,*, Glageane S. Souza2, Francisco J.A. Loureiro3, Haingomalala L. Tidahy1, Cédric Gennequin1,* and Edmond Abi-Aad1 -- INTRODUCTION -- Preparation of Ni-Based Materials -- One Step Synthesis Method -- Thermal, Structural and Textural Study -- Catalytic Performance -- Electrochemical Performance -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- REFERENCES -- NiO-Ce0.9Gd0.1O1.95 Composites and their Cermets as Anode Materials for SOFC -- Allan J.M. de Araújo1, Gabriel M. Santos2, João P. de F. Grilo3, Rubens M. do Nascimento1, Carlos A. Paskocimas1, Moisés R. Cesário4 and Daniel A. de Macedo*, 5 -- INTRODUCTION -- Fuel Cells -- Fuel Cells: Types and Applications -- Solid Oxide Fuel Cell (SOFC) -- SOFC Components -- Electrolyte -- Cathode -- Anode -- Materials for SOFC Anodes -- Methods for Obtaining NiO-GDC Composites.

Polymeric Precursor Method (Pechini Method) -- Sintering -- Impedance Spectroscopy -- Impedance Spectroscopy of NiO-GDC Composites -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- REFERENCES -- Perovskite-Based Anode Materials for Solid Oxide Fuel Cells -- Vladislav A. Kolotygin*, 1, Irina E. Kuritsyna1 and Nikolay V. Lyskov2 -- INTRODUCTION -- Non-Perovskite Oxide-Based Anode Materials -- Chromite-based Perovskite Solid Solutions -- Manganite-Based Perovskites -- Titanates with Perovskite-Like Structure -- SrMoO3-based Oxides with Disordered and Double Perovskite Structure -- Vanadates with Perovskite-Like Structure -- Short-Term Performance of Perovskite-Based Anode Materials -- Relationships between the Intrinsic Properties of the Anode Material and Electrochemical Behavior: Selected Examples -- Chemical Compatibility between Electrode/Electrolyte -- CONCLUDING REMARKS -- CONSENT FOR PUBLICATION -- CONFLICT OF INTEREST -- ACKNOWLEDGEMENT -- REFERENCES -- Subject Index.

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