Nanoporous gold (NPG) is characterized by a bicontinuous network of nanometer-sized
metallic struts and interconnected pores formed spontaneously by oxidative dissolution of …

A successful working model for nanoporosity evolution during dealloying was introduced 15
years ago. Since that time, the field has rapidly expanded, with research groups from across …

High-entropy alloys (HEAs) are near-equimolar alloys comprising five or more elements. In
recent years, catalysis using HEAs has attracted considerable attention across various …

Controllably incorporating multiple immiscible metal elements into one single nanostructure
has immeasurable technological and scientific potential, but it remains a challenge for the …

Nanomaterials have promising applications in catalysis, filtration, hydrogen storage,
sensors, automobile exhaust treatment, and energy storage and conversion, etc. However …

Silicon is considered as one of the most favorable anode materials for next-generation
lithium-ion batteries. Nanoporous silicon is synthesized via a green, facile, and controllable …

Dealloying, which is traditionally originated in the research of alloy corrosion, has recently
been developed as a robust and generic method for fabricating functional 3D nanoporous …

Electrochemical water splitting to produce hydrogen as an ideal sustainable energy storage
strategy provides a useful approach for the utilization of clean energy due to its high …

The growth of the hydrogen economy is predicated on advancements in electrochemical
energy technologies, with water electrolysis as a key component to the technological …

Nanoporous Pt− Co alloy nanowires were synthesized by electrodeposition of Co-rich
Pt1Co99 alloy into anodic aluminum oxide (AAO) membranes, followed by a dealloying …