Photocatalytic water splitting and carbon dioxide (CO2) reduction provide promising
solutions to global energy and environmental issues. In recent years, metal‐organic …

Photocatalysis has been widely studied because it can use inexhaustible solar energy as an
energy source while solving the problems of fossil fuel depletion and environmental …

Global energy demand is increasing, but traditional fossil energy reserves are limited, non-
renewable and causing serious environmental problems. A useful solution is to transform …

Photocatalysis is considered to be a green and environment‐friendly technology since it can
convert solar energy into other types of chemical energies. Over the past several years …

Improving the separation of photogenerated carriers and suppressing the rapid complication
of electron–hole pairs are essential ways to improve photocatalytic hydrogen production …

Abstract UiO-66, a water-resistant zirconium-based metal–organic framework (MOF) with
ultra-high porosity, larger surface area and plentiful active sites, has an advantage over …

Solar photocatalytic hydrolysis of hydrogen is one of the most important ways to solve
energy and environmental problems. Rational design and modulation of interfaces in S …

Solar-driven photoreduction of CO2 into valuable fuels offers a sustainable technology to
relieve the energy crisis as well as the greenhouse effect. Yet the exploration of highly …

Graphdiyne (GDY) has shown promising application prospects in the photocatalytic splitting
of water into hydrogen (H2). In this work, a new carbon material of GDY was prepared by a …

The direct solar-driven CO2 conversion to high-value-added chemicals with high selectivity
represents an attractive approach to address the energy crisis and environmental pollution …