Archivio Istituzionale della RicercaThis chapter discusses the transformation of CO2 to value-added products, with a focus on the exploitation of sun-driven water splitting for generation of hydrogen protons (H+) that can be used in situ for the CO2 reduction reaction. It starts by introducing CO2 as a raw material for the production of fuels or chemicals by conventional (thermocatalytic) conversion processes or emerging sun-driven technologies. It then gives a background about the different figures of merit that must be considered and identifies the opportunities for syngas production. Different architectures for syngas production are presented, considering the photo-driven systems and with particular emphasis on the electrochemical systems. It proceeds by extensively discussing various catalysts for these two kinds of systems. Finally, it tackles the promising solvent-less route for the electrochemical conversion of CO2 to value-added products.
Photo/electrocatalytic hydrogen exploitation for CO2 reduction toward solar fuels production / Guzmán, Hilmar; Amin Farkhondehfal, M.; Tolod, Kristine; Hernández, Simelys; Russo, Nunzio - In: SOLAR HYDROGEN PRODUCTION Processes, Systems and Technologies / FRANCESCO CALISE, MASSIMO DENTICE D’ACCADIA, MASSIMO SANTARELLI, ANDREA LANZINI, DOMENICO FERRERO. - ELETTRONICO. - [s.l] : Elsevier, 2019. - ISBN 978-0-12-814853-2. - pp. 365-418 [10.1016/B978-0-12-814853-2.00011-4]
Photo/electrocatalytic hydrogen exploitation for CO2 reduction toward solar fuels production
Hilmar Guzmán;M. Amin Farkhondehfal;Kristine Tolod;Simelys Hernández;Nunzio Russo
2019
Abstract
This chapter discusses the transformation of CO2 to value-added products, with a focus on the exploitation of sun-driven water splitting for generation of hydrogen protons (H+) that can be used in situ for the CO2 reduction reaction. It starts by introducing CO2 as a raw material for the production of fuels or chemicals by conventional (thermocatalytic) conversion processes or emerging sun-driven technologies. It then gives a background about the different figures of merit that must be considered and identifies the opportunities for syngas production. Different architectures for syngas production are presented, considering the photo-driven systems and with particular emphasis on the electrochemical systems. It proceeds by extensively discussing various catalysts for these two kinds of systems. Finally, it tackles the promising solvent-less route for the electrochemical conversion of CO2 to value-added products.
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BOOK_Elsevier 2019_Solar H2 Production_Chapt 11_Guzman et al.pdf
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https://hdl.handle.net/11583/2788434