This paper presents a brief description of the role of interfacial energies in the understanding
and control of nanocrystalline complex oxides in both particulate and bulk forms. Interfacial …

Bulk inorganic materials play important roles in human society, and their construction is
commonly achieved by the coalescence of inorganic nano-or micro-sized particles …

Multisized nanoparticles (MPs) are widely employed as electronic materials to form
conductive patterns, benefitting from their excellent sintering properties and mechanical …

A material of magnesium containing 5 wt% carbon is brought to 1000 hydrogen sorption
cycles with systematic sampling for material characterization. The Mg–5C material is cycled …

Printed electronics are widely used in wearable tech, IoT, and medical devices, and reliable
sintering methods are essential for achieving optimal electrode conductivity. However …

This work uses a combination of stress dependent single grain boundary Coble creep and
zero-creep experiments to measure interfacial energies, along with grain boundary point …

This work demonstrates novel in situ transmission electron microscopy-based microscale
single grain boundary Coble creep experiments used to grow nanowires through a solid …

Sintering mechanisms of copper nanoparticles on copper plates are investigated based on
molecular dynamics (MD) simulation. In this paper, the roles of tilt grain boundaries (GBs) …

In the present study, to improve the performances of Al 0.3 CoCrFeNi 1.5 high entropy alloys
(HEAs), grain boundary character distribution (GBCD) of Al 0.3 CoCrFeNi 1.5 HEA has been …

Laser additive manufacturing emerged as an advanced manufacturing process to fabricate
components in a layered fashion by fusing the powder particles. This process is multifaceted …