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 …

An overview of the catalytic properties of intermetallic compounds has been made to provide
a comprehensive understanding regarding (1) what intermetallic catalysts can do,(2) their …

Supported nanoparticles are broadly employed in industrial catalytic processes, where the
active sites can be tuned by metal-support interactions (MSIs). Although it is well accepted …

Transition metal complexes that combine electronically different metals are most readily
designed by combining an early transition metal and a late transition metal, typically via a …

The strong metal–support interaction over Pt/TiO2 catalysts, which were prepared by
depositing size-specified Pt colloids (2–6 nm) onto anatase TiO2 nanosheets dominated by …

Intermetallic alloy nanocrystals have emerged as a promising next generation of
nanocatalyst, largely due to their promise of surface tunability. Atomic control of the …

The potential of reactive metal–support interactions has been investigated using platinum
(Pt) and a two-dimensional titanium carbide (Ti 3 C 2 [MXene]) support to achieve the full …

An overview of our recent advances in the development of highly efficient alloy materials for
catalytic applications (intermetallic compounds, pseudo-binary, solid-solution, and single …

Au–Pt alloy particles with cauliflower-like microstructures of varying Pt/Au ratios were
electrodeposited on indium tin oxide (ITO) substrates by constant potential electrolysis at …

We report the synthesis of Co–Mo alloy nanoparticles with a uniform distribution of the alloy
elements on CeO2via sodium naphthalenide-driven reduction. The resulting sample …