Nanomaterials as catalysts for CO2 transformation into value-added products: A review

“…Concentrating first on the formation of liquid products, CO 2 reduction can follow various routes, leading to different products, which is dependent on the process being undertaken (electrochemical, photochemical, enzymatic, thermal); hence, a broad range of products are reported in the literature for various CO 2 reduction/conversion methods at a wide variety of catalyst materials. − Nevertheless, CO 2 activation is a critical first step that precedes any subsequent reduction steps …”

Sonochemical CO₂ Reduction to Acetamide and Liquid C₂₊ Oxygenates Using a Liquid Metal Gallium-Based Reductant

“…Concentrating first on the formation of liquid products, CO 2 reduction can follow various routes, leading to different products, which is dependent on the process being undertaken (electrochemical, photochemical, enzymatic, thermal); hence, a broad range of products are reported in the literature for various CO 2 reduction/conversion methods at a wide variety of catalyst materials. − Nevertheless, CO 2 activation is a critical first step that precedes any subsequent reduction steps …”

Sonochemical CO₂ Reduction to Acetamide and Liquid C₂₊ Oxygenates Using a Liquid Metal Gallium-Based Reductant

“…Several recent review articles have summarized the blossoming novel chemical, photochemical, and electrochemical processes to achieve sustainable decarbonization. 53 Alternatively, enzymatic CO 2 conversion represents a promising technology by itself or in combination with other green tools that can lead to green pro- cesses moving forwards to a CO 2 circular economy. In vitro and in vivo enzymes can play key roles in this field being able not only to activate and transform CO 2 into synthetically relevant target molecules and energetic vectors but also to contribute to CO 2 capture technologies.…”

From green to circular chemistry paved by biocatalysis

“…The chemical conversion of carbon dioxide (CO 2 ) by its fixation into high-value-added products has been one of the principal focuses and challenges for the scientific community to contribute to the decrease in CO 2 emissions in the atmosphere. [1][2][3][4] Related to this, the attention to the catalytic transformation of this molecule has increased enormously in recent years [5][6][7][8] for the preparation of a great variety of different products, such as methanol, 9,10 carbamates, [11][12][13] formic acid, 14,15 and amines. 16 It is important to note that according to a recent study, only 0.36% of CO 2 emissions were employed as feedstock for the industrial preparation of value-added chemicals.…”

Guanidinium iodide salts as single component catalysts for CO₂ to epoxide fixation