Artificial photocatalytic energy conversion represents a highly intriguing strategy for solving
the energy crisis and environmental problems by directly harvesting solar energy. The …

Artificial photosynthesis enables direct solar‐to‐chemical energy conversion aimed at
mitigating environmental pollution and producing solar fuels and chemicals in a green and …

Indisputably, noble‐metal single atom catalysts (SACs) are one of the most popular research
topics in the field of catalysis because of their low cost, ultrahigh atomic utilization, and …

As a way to drive chemical reactions by renewable solar energy, photocatalytic technology
is an appealing strategy for carbon recycle and value‐added CO2 utilization mimicking the …

Hydrogen is regarded as one of the most promising energy carriers because of its
renewable and clean nature. Among various routes to generate hydrogen, solar water …

Photothermal catalytic CO 2 reduction to solar fuels is one of the most promising
technologies for industrial development. Photothermal catalytic CO 2 reduction by H 2 and …

The development of optoelectronics technology greatly contributes to our daily life and
industrial evolution. In particular, two-dimensional (2D) materials with ultrathin structure …

In recent years, two-dimensional (2D) black phosphorus (BP) has been widely applied in
many fields, such as (opto) electronics, transistors, catalysis and biomedical applications …

The application of hydrogen energy is significant to meet the challenge of fossil energy
depletion and carbon emission limitation. The photocatalytic hydrogen evolution has been …

The development of photocatalysts with robust active sites, excellent light-harvesting ability,
low electron-hole recombination, and superior activity has been employed over the past …