The excessive dependence on fossil fuels contributes to the majority of CO2 emissions,
influencing on the climate change. One promising alternative to fossil fuels is green …

Electrochemical water splitting powered by renewable energy sources has been considered
as an attractive hydrogen generation technology with high‐purity product and zero carbon …

Optimizing charge transfer and alleviating volume expansion in electrode materials are
critical to maximize electrochemical performance for energy‐storage systems. Herein, an …

High-entropy alloys (HEAs), which are defined as near-equimolar alloys of five or more
elements, are attracting ever increasing attention because of the unique properties in a …

Metallic nanostructures with low dimensionality (one-dimension and two-dimension)
possess unique structural characteristics and distinctive electronic and physicochemical …

Electrochemical water splitting plays a crucial role in the development of clean and
renewable energy production and conversion, which is a promising pathway to reduce …

The limitations of the Haber–Bosch reaction, particularly high-temperature operation, have
ignited new interests in low-temperature ammonia-synthesis scenarios. Ambient N2 …

We reported a conceptual and experimental breakthrough in serving the nanoscale high-
entropy alloy (HEA) as substrates to stabilize the active Ir with ultra-low loading by using Fe …

Material strain and reconstruction effects are critical for catalysis reactions, but current
insights into operando strain effects during reaction and means to master catalyst …

Strain engineering in bimetallic alloy structures is of great interest in electrochemical CO2
reduction reactions (CO2RR), in which it simultaneously improves electrocatalytic activity …