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The electrochemical construction of C–N bonds from abundant CO2 and nitrogenous sources is of interest for the sustainable synthesis of value-added organonitrogen compounds, which requires comprehensive considerations of electrocatalysts, the interface microenvironment, mechanisms, reactors and paired reactions to push this area towards competition with traditional thermochemical methods.
Irreproducible synthetic methods consume time, money, and resources. Here, we highlight the steps Nature Synthesis takes to help authors make their synthetic procedures as reproducible as possible.
Metal–organic frameworks are important catalysts for photocatalytic CO2 reduction but if the field is to continue to advance, then reporting of photocatalytic metrics and practices must be standardized.
Francesca Paradisi, Professor of Sustainable Pharmaceutical Chemistry at the University of Bern, talks to Nature Synthesis about the reactivity of biocatalysts in flow.
Anna Slater, Professor of Chemistry and Royal Society University Research Fellow at the University of Liverpool, talks to Nature Synthesis about developing supramolecular and materials synthesis in flow chemistry.