Multi-principal element alloys (MPEAs) have garnered significant attention due to their
exceptional mechanical properties and resistance to irradiation. The changes in …

Concentrated solid-solution alloys (CSAs) have been proposed as structural materials for
advanced nuclear reactors due to their great irradiation tolerance. We studied and …

Multi-principal elemental alloys (MPEAs) exhibit unusual mechanical properties and
irradiation resistance. It has been reported that the irradiation tolerance of MPEAs originates …

Refractory multiple principal elemental alloys (MPEAs) hold great promise for structural
materials in future nuclear energy systems. Compared to the extensively studied face …

It is well established that chemically-disordered alloys exhibit good irradiation resistance
due to their ability to self-healing. On the other hand, ordered phases are usually utilized as …

Nanostructured (NS) materials may have different irradiation resistance from their coarse-
grained (CG) counterparts. In this review, we focus on the effect of grain boundaries …

Oxide dispersed strengthened steel (ODSS) is widely used in nuclear industry due to its
excellent creep and void swelling resistance. The presence of high density of uniformly …

Multi-principal element alloys (MPEAs) have attracted much attention as future nuclear
materials due to their extraordinary radiation resistances. In this work, we have elucidated …

Atomic investigation of point defects is the basis for exploring the mechanisms underlying
the macro performance of materials under irradiation. Owing to the complex local disordered …

Materials capable of sustaining high radiation doses at a high temperature are required for
next-generation fission and future fusion energy. To date, however, even the most promising …