The use of CO2 as C1 building block for chemical synthesis is receiving growing attention, due to the potential of this simple molecule as abundant and cheap renewable feedstock. Among the possible reductants used in the literature to bring about CO2 reduction to C1 derivatives, hy-droboranes have found various applications, in the presence of suitable homogenous catalysts. The current minireview article summarizes the main results obtained since 2016 in the synthetic design of main group, first and second row transition metals for use as catalysts for CO2 hy-droboration
Recent Advances in Metal Catalyst Design for CO2 Hydroboration to C1 Derivatives
Kostera Sylwia;Peruzzini Maurizio;Gonsalvi Luca
2021
Abstract
The use of CO2 as C1 building block for chemical synthesis is receiving growing attention, due to the potential of this simple molecule as abundant and cheap renewable feedstock. Among the possible reductants used in the literature to bring about CO2 reduction to C1 derivatives, hy-droboranes have found various applications, in the presence of suitable homogenous catalysts. The current minireview article summarizes the main results obtained since 2016 in the synthetic design of main group, first and second row transition metals for use as catalysts for CO2 hy-droborationFile in questo prodotto:
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Descrizione: Recent Advances in Metal Catalyst Design for CO2 Hydroboration to C1 Derivatives
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