Conductive inks have gathered increasing attention in the fabrication of next-generation
electronic devices because of their prominent compatibility and producibility. Recently …

The coalescence of nanoclusters fabricated in the gas phase is a fundamental growth
mechanism determining cluster shapes, sizes, compositions, and structures, with resultant …

Surface segregation phenomena dictate core–shell preference of bimetallic nanoparticles
and thus play a crucial role in the nanoparticle synthesis and applications. Although it is …

The evolution towards equilibrium of AuCo, AgNi and AgCu nanoparticles is studied by
molecular dynamics simulations. Nanoparticle sizes of about 2.5 nm are considered, in the …

Steering the selectivity of Cu-based electrochemical CO2 reduction (CO2R) catalysts toward
targeted products will serve to improve the technoeconomic outlook of technologies based …

To this day, engineering nanoalloys beyond bimetallic compositions has scarcely been
within the scope of physical deposition methods due to the complex, nonequilibrium …

Synthesis methods of highly functional core@ shell nanoparticles with high throughput and
high purity are in great demand for applications, including catalysis and optoelectronics …

Printable and flexible Cu–Ag alloy electrodes with high conductivity and ultrahigh oxidation
resistance have been successfully fabricated by using a newly developed Cu–Ag hybrid ink …

Alloy nanoparticles with variable compositions add a new dimension to nanoscience and
have many applications. Here we suggest a novel approach for the fabrication of variable …

Nanoparticles constitute fundamental building blocks required in several fields of application
with current global importance. To fully exploit nanoparticle properties specifically …