Electrocatalysis underpins the renewable electrochemical conversions for sustainability,
which further replies on metallic nanocrystals as vital electrocatalysts. Intermetallic …

Electrochemical water splitting represents a promising technology for green hydrogen
production. To design advanced electrocatalysts, it is crucial to identify their active sites and …

High-entropy alloy nanoparticles (HEA-NPs) hold unrestricted promise for various
applications in an unlimited chemical compositional space, as shown in recent years. These …

The value‐added chemicals, monoxide, methane, ethylene, ethanol, ethane, and so on, can
be efficiently generated through the electrochemical CO2 reduction reaction (eCO2RR) …

Owing to their respective characteristics, single-atom catalysts (SACs), metal nanoparticle
catalysts, and metal nanocluster catalysts exhibit excellent performance in various …

Power performance is the primary bottleneck to the industrial application of proton-exchange-
membrane fuel cells, which hinges on catalytic activity, oxygen mass transfer, and proton …

High‐entropy alloys refer to near‐equimolar alloys of five or more elements and are
receiving attention due to their unique physical and chemical properties. In electrocatalysis …

High-entropy alloys (HEAs) present a promising class of materials due to extraordinary
properties and vast possibilities for tailoring product characteristics through changes in …

Making a measurement over millions of nanoparticles or exposed crystal facets seldom
reports on reactivity of a single nanoparticle or facet, which may depart drastically from …

Abstract High‐entropy materials (HEMs), which are newly manufactured compounds that
contain five or more metal cations, can be a platform with desired properties, including …