Add to ORKGConverting the greenhouse gas CO2 into higher alcohols (HAs) via hydrogenation reaction requires more attention in C1 chemistry because the C2+ alcoholic products are value-added chemicals as fuel additives, reaction solvents, and intermediates. However, the chemical inertness of CO2, complexity in various reaction routes, and uncontrollability of C–C coupling from untamed surface moieties in higher alcohol synthesis (HAS) make this approach very challenging to achieve. In this review, we summarize and analyze the recent advances in catalytic HAS from direct CO2 hydrogenation. The first section highlights the potential promising catalyst families, including a noble-metal class of catalysts, modified Co-based catalysts, modified Cu-based cat...
The atmospheric CO2 concentration has been continuously increasing due to fossil fuel combustion. Th...
Cu–Co-based catalysts derived from hydrotalcite (HT)-type precursors were applied in higher alcohol ...
Revealing and regulating the intricate reaction mechanism of direct CO2 hydrogenation to higher alco...
Global warming due to the accumulation of atmospheric CO2 has received great attention in recent yea...
As one of the most effective methods, CO2 hydrogenation through heterogeneous catalysis is a promisi...
Bimetallic CoCu model catalysts were investigated for the synthesis of higher alcohols using catalyt...
Under specific scenarios, the catalytic hydrogenation of CO2 with renewable hydrogen is considered a...
CO2 hydrogenation as sustainable route for generation of value-added carbon feedstock is identified ...
CO2 hydrogenation to hydrocarbons is a promising way of making waste to wealth and energy storage, w...
CO2 is a clean carbon source for the chemical reactions, many researchers have studied the utilizati...
The catalytic production of higher alcohols (HAs) is a promising path for converting CO2 into value-...
International audienceCarbon capture and utilization represents a promising strategy to meet the glo...
Recycling CO2 as a renewable carbon source for the production of high-value fuels and chemicals has ...
High-efficiency utilization of CO2 facilitates the reduction of CO2 concentration in the global atmo...
Owing to the increasing emissions of carbon dioxide (CO2), human life and the ecological environment...
The atmospheric CO2 concentration has been continuously increasing due to fossil fuel combustion. Th...
Cu–Co-based catalysts derived from hydrotalcite (HT)-type precursors were applied in higher alcohol ...
Revealing and regulating the intricate reaction mechanism of direct CO2 hydrogenation to higher alco...
Global warming due to the accumulation of atmospheric CO2 has received great attention in recent yea...
As one of the most effective methods, CO2 hydrogenation through heterogeneous catalysis is a promisi...
Bimetallic CoCu model catalysts were investigated for the synthesis of higher alcohols using catalyt...
Under specific scenarios, the catalytic hydrogenation of CO2 with renewable hydrogen is considered a...
CO2 hydrogenation as sustainable route for generation of value-added carbon feedstock is identified ...
CO2 hydrogenation to hydrocarbons is a promising way of making waste to wealth and energy storage, w...
CO2 is a clean carbon source for the chemical reactions, many researchers have studied the utilizati...
The catalytic production of higher alcohols (HAs) is a promising path for converting CO2 into value-...
International audienceCarbon capture and utilization represents a promising strategy to meet the glo...
Recycling CO2 as a renewable carbon source for the production of high-value fuels and chemicals has ...
High-efficiency utilization of CO2 facilitates the reduction of CO2 concentration in the global atmo...
Owing to the increasing emissions of carbon dioxide (CO2), human life and the ecological environment...
The atmospheric CO2 concentration has been continuously increasing due to fossil fuel combustion. Th...
Cu–Co-based catalysts derived from hydrotalcite (HT)-type precursors were applied in higher alcohol ...
Revealing and regulating the intricate reaction mechanism of direct CO2 hydrogenation to higher alco...