This review is focused on the promising area of CO 2 utilization with epoxide for cyclic
carbonate production through various catalytic pathways of the cycloaddition reaction …

Photothermal catalysis that utilizes solar energy to not only generate charge carriers but also
supply heat input represents a potentially sustainable strategy for the efficient conversion of …

Photocatalytic CO 2 conversion into valuable hydrocarbon fuels via solar light is a promising
strategy to simultaneously address energy shortage and environmental pollution. However …

Cu is considered as the most promising catalyst for the electrochemical carbon dioxide
reduction reaction (CO2RR) to produce C2+ hydrocarbons, but achieving high C2+ product …

Converting CO2 into hydrocarbons using solar energy enables the seamless integration of
efficient solar energy utilization and carbon neutrality, presenting an efficacious solution to …

It is a promising strategy to effectively promote “carbon neutrality” by reducing CO2 to small
energy molecules through photocatalysis technology. However, due to low light utilization …

The photo-Fenton process is a promising technology for wastewater purification, but the
extra addition of H 2 O 2 and the limited conversion of Fe 2+/Fe 3+ greatly hinder its practical …

The use of photocatalytic solar energy to drive CO2 reduction is beneficial for addressing
fossil fuel shortages and environmental pollution issues. We synthesized a twin S-scheme g …

Owing to the specific electronic-redistribution and spatial proximity, diatomic catalysts
(DACs) have been identified as principal interest for efficient photoconversion of CO2 into …

Using clean solar energy to reduce CO 2 into value-added products not only consumes the
over-emitted CO 2 that causes environmental problems, but also generates fuel chemicals to …