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

Recently, the missing link between homogeneous and heterogeneous catalysis has been
found and it was named single-atom catalysis (SAC). However, the SAC field still faces …

Solar carbon dioxide (CO2) conversion is an emerging solution to meet the challenges of
sustainable energy systems and environmental/climate concerns. However, the construction …

The precise construction of photocatalysts with diatomic sites that simultaneously foster light
absorption and catalytic activity is a formidable challenge, as both processes follow distinct …

While the microenvironment around catalytic sites is recognized to be crucial in
thermocatalysis, its roles in photocatalysis remain subtle. In this work, a series of sandwich …

Controlling the electronic structure of transition-metal single-atom heterogeneous catalysts
(SACs) is crucial to unlocking their full potential. The ability to do this with increasing …

The highly selective photoreduction of CO2 into valuable small‐molecule chemical
feedstocks such as CO is an effective strategy for addressing the energy crisis and …

Bacteria, as the most abundant living organisms, have always been a threat to human life
until the development of antibiotics. However, with the wide use of antibiotics over a long …

The photocatalytic conversion of CO2 into C2+ products such as ethylene is a promising
path toward the carbon neutral goal but remains a big challenge due to the high activation …

Abstract 2D materials show many particular properties, such as high surface‐to‐volume
ratio, high anisotropic degree, and adjustable chemical functionality. These unique …