Alloying has long been used as a promising methodology to improve the catalytic
performance of metallic materials. In recent years, the field of alloy catalysis has made …

A critical review of different prominent nanotechnologies adapted to catalysis is provided,
with focus on how they contribute to the improvement of selectivity in heterogeneous …

Metal atoms dispersed on the oxide supports constitute a large category of single-atom
catalysts. In this review, oxide supported single-atom catalysts are discussed about their …

The emergence of high-entropy materials (HEMs) with their excellent mechanical properties,
stability at high temperatures, and high chemical stability is poised to yield new …

Atomically dispersed metal catalysts (ADCs), as an emerging class of heterogeneous
catalysts, have been widely investigated during the past two decades. The atomic dispersion …

Single-atom alloys (SAAs) play an increasingly significant role in the field of single-site
catalysis and are typically composed of catalytically active elements atomically dispersed in …

Electrocatalysis plays a central role in clean energy conversion, enabling a number of
processes for future sustainable technologies. Atomic site electrocatalysts (ASCs), including …

Noble metals have received widespread applications in the field of catalysis due to their
unique intrinsic properties and irreplaceable catalytic activities. However, in consideration of …

Single-atom site catalysts (SACs) have received considerable attention for electrocatalytic
applications, owing to their maximum atom-utilization efficiency, well-identified active …

Monometallic catalysts, in particular those containing noble metals, are frequently used in
heterogeneous catalysis, but they are expensive, rare and the ability to tailor their structures …