Converting the greenhouse gas CO 2 into higher alcohols (HAs) via hydrogenation reaction
requires more attention in C 1 chemistry because the C 2+ alcoholic products are value …

The conversion of CO2 by renewable power-generated hydrogen is a promising approach
to a sustainable production of long-chain olefins (C4+=) which are currently produced from …

The emission controls of carbon oxides (CO x) are crucial to fulfill carbon neutrality, where
CO x is a useful building block for chemical synthesis. Therefore, CO x conversions have …

C1 catalysis refers to the conversion of simple carbon-containing compounds, such as
carbon monoxide, carbon dioxide, methane, and methanol into high-value-added …

Synthesis of ethanol from non-petroleum carbon resources via syngas (a mixture of H2 and
CO) is an important but challenging research target. The current conversion of syngas to …

Direct CO2 hydrogenation to higher alcohols (HAs) is a promising way to achieve the
conversion of CO2 to high-value chemicals. Alkali metals as promoters are generally crucial …

Alkali metal promoters are widely used to modify active metal sites/interfaces of
heterogeneous catalysts for numerous industrial processes. However, the interplay between …

Higher alcohol (C2+) synthesis (HAS) from direct CO2 hydrogenation is a promising way to
realize the fixation of CO2 to high-value chemicals; however, the identification of active …

Long-chain alcohols synthesis (LAS, C5+ OH) from syngas provides a promising route for
the conversion of coal/biomass/natural gas into high-value chemicals. Cu-Fe binary …

Currently, direct catalytic CO2 hydrogenation to produce ethanol is an effective and feasible
way for the resource utilization of CO2. However, constructing non-precious metal catalysts …