The reduction of carbon dioxide to useful fuels/chemicals, such as methane, formic, and
methanol, is an innovative way to address looming energy and environmental issues …

High-efficiency utilization of CO2 facilitates the reduction of CO2 concentration in the global
atmosphere and hence the alleviation of the greenhouse effect. The catalytic hydrogenation …

Copper-based catalysts for the hydrogenation of CO2 to methanol have attracted much
interest. The complex nature of these catalysts, however, renders the elucidation of their …

Anodic organic upgrading offers a promising strategy to produce value-added chemicals
and to facilitate coupled hydrogen production but it is still challenging in terms of long-term …

Photocatalytic CO2 conversion into a high-value-added C2 product is a highly challenging
task because of insufficient electron deliverability and sluggish C–C coupling kinetics …

In-plane sulfur vacancies (Sv) in molybdenum disulfide (MoS2) were newly unveiled for CO2
hydrogenation to methanol, whereas edge Sv were found to facilitate methane formation …

Palladium promotion and deposition on monoclinic zirconia are effective strategies to boost
the performance of bulk In2O3 in CO2-to-methanol and could unlock superior reactivity if …

Supported oxides are widely used in many important catalytic reactions, in which the
interaction between the oxide catalyst and oxide support is critical but still remains elusive …

Constructing strong oxide‐support interaction (SOSI) is compelling for modulating the atomic
configurations and electronic structures of supported catalysts. Herein, ultrafine iridium oxide …

The supported Pt catalyst is normally not active for CO 2 hydrogenation to methanol at the
presence of CO. Herein, ZrO 2 is added into Pt/In 2 O 3 for CO 2 hydrogenation to methanol …