04381nam 22007455 450 991084708610332120240329113453.0981-9988-22-510.1007/978-981-99-8822-8(MiAaPQ)EBC31230605(Au-PeEL)EBL31230605(DE-He213)978-981-99-8822-8(CKB)31120641900041(MiAaPQ)EBC31254310(Au-PeEL)EBL31254310(EXLCZ)993112064190004120240327d2024 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierAdvances in CO2 Utilization From Fundamentals to Applications /edited by Guoliang Zhang, Annemie Bogaerts, Jingyun Ye, Chang-jun Liu1st ed. 2024.Singapore :Springer Nature Singapore :Imprint: Springer,2024.1 online resource (315 pages)Green Chemistry and Sustainable Technology,2196-6990981-9988-21-7 Includes bibliographical references.CO2 conversion via MOF-based catalysts -- Photo-thermo catalytic conversion of CO2: What, why, how and future perspectives -- Thermocatalytic CO2 Hydrogenation to Liquid Fuels -- Status of catalyst development for CO2 hydrogenation to platform chemicals CH3OH and CO -- CO2 Methanation over the Supported Ni Catalysts: The Structural Effect -- CO2 Reforming with Alkanes -- CO2 electrocatalytic conversion: outlooks, pitfalls and scientific gaps -- Bio-conversion of CO2 into valuables -- CO2-sourced polymers: synthesis, property, application -- Plasma-based CO2 conversion -- Transition Metal-Promoted Carboxylation of Unsaturated Compounds with CO2 -- Large Scale Recycling of Carbon:Carbon Dioxide as Source of Carbon.This book presents the current status of CO2 utilization from fundamental studies to industrial tests. With the development of renewable energy, carbon dioxide will become an important feedstock for the synthesis of fuels and chemicals, and CO2 utilization must be the final solution for the carbon dioxide issues. This book discusses the effective techniques for activating inert carbon dioxide and various approaches for CO2 conversion, such as homogeneous catalytic conversion, homogeneous catalytic conversion, heterogeneous catalytic conversion, photocatalytic conversion, electrocatalytic conversion, photo-thermal catalytic conversion, plasma-chemical/plasma-catalytic conversion, and bio-catalytic conversion. It also addresses the electronic and geometric structural effects of the supported catalyst on the activity and selectivity of the conversion of carbon dioxide. The significant effects from single atom catalyst to nanoparticle are also discussed, and process intensification in catalyst preparation and reaction is highlighted. Furthermore, this book contains chapters with theoretical studies, including functional theory, which has played an important role in the catalyst design, the explanation of the reaction mechanism, and in understanding the synergy of reaction and heat and mass transfer. Given its scope, this book appeals to a wider readership, especially for researchers in the field of CO2 utilization.Green Chemistry and Sustainable Technology,2196-6990CatalysisRenewable energy sourcesGreen chemistryChemical engineeringEcologySustainabilityCatalysisRenewable EnergyGreen ChemistryChemical EngineeringEnvironmental SciencesSustainabilityCatalysis.Renewable energy sources.Green chemistry.Chemical engineering.Ecology.Sustainability.Catalysis.Renewable Energy.Green Chemistry.Chemical Engineering.Environmental Sciences.Sustainability.905Zhang GuoliangMiAaPQMiAaPQMiAaPQBOOK9910847086103321Advances in CO2 Utilization4266602UNINA