Solar-to-chemical energy conversion via heterogeneous photocatalysis is one of the
sustainable approaches to tackle the growing environmental and energy challenges. Among …

Thermo-photo catalysis, which is the catalysis with the participation of both thermal and
photo energies, not only reduces the large energy consumption of thermal catalysis but also …

Converting carbon dioxide photocatalytically into fuels using solar energy is an attractive
route to move away from a reliance on fossil fuels. Photothermal CO2 catalysis is one …

Photothermal CO2 hydrogenation to high‐value‐added chemicals and fuels is an appealing
approach to alleviate energy and environmental concerns. However, it still relies on the …

Driving metal-cluster-catalyzed high-temperature chemical reactions by sunlight holds
promise for the development of negative-carbon-footprint industrial catalysis, which has yet …

The conversion of CO2 into fuels and feedstock chemicals via photothermal catalysis holds
promise for efficient solar energy utilization to tackle the global energy shortage and climate …

Photothermal catalysis realizes the synergistic effect of solar energy and thermochemistry,
which also has the potential to improve the reaction rate and optimize the selectivity. In this …

In this work, nitrogen-doped carbon nanotubes encapsulated with Co are grown on carbon
fibers (Co-NCNT/CF) and utilized as photothermal materials to construct 3D evaporators …

Solar-to-fuel conversion through photocatalytic processes is regarded as promising
technology with the potential to reduce reliance on dwindling reserves of fossil fuels and to …

Herein, the nitrogen-doped indium oxide (N-In 2 O 3) photocatalyst was confirmed to be
highly active and stable for photocatalytic reduction of CO 2 to methanol in an aqueous …