Organic photochemistry is intensely developed in the 1980s, in which the nature of excited
electronic states and the energy and electron transfer processes are thoroughly studied and …

Supported single-metal atom catalysts (SACs) are constituted of isolated active metal
centers, which are heterogenized on inert supports such as graphene, porous carbon, and …

Plasmonic nanostructures have shown immense potential in photocatalysis because of their
distinct photochemical properties associated with tunable photoresponses and strong light …

Ammonia decomposition on lithium imide surfaces has been intensively investigated owing
to its potential role in a sustainable hydrogen-based economy. Here, through advanced …

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 …

To rationally design effective and stable catalysts for energy conversion applications, we
need to understand how they transform under reaction conditions and reveal their …

Pickering emulsions are particle‐stabilized surfactant‐free dispersions composed of two
immiscible liquid phases, and emerge as attractive catalysis platform to surpass traditional …

The low‐temperature reverse water‐gas shift (RWGS) reaction faces the following obstacles:
low activity and unsatisfactory selectivity. Herein, the dual‐active sites of platinum (Pt) …

Photocatalysis has been invariably considered as a promising and ideal technology to
achieve clean energy conversion, and photoinduced selective oxidation reactions in organic …

High‐entropy alloys (HEAs) have attracted widespread attention as both structural and
functional materials owing to their huge multielement composition space and unique high …