The prosperity of graphene in the past decade has provided us with both a versatile platform
for scientific studies and a multitude of solutions for technological applications. Interfacing …

Interfaces including grain boundaries and hetero‐phase interfaces could withstand the
radiation damage via providing sites for trapping the defects. With the urgent demand for …

Nanolayered metals are shown to have significantly improved radiation resistance, owing to
the copious interplay between their densely populated internal boundaries with irradiation …

High irradiation tolerance is a key feature required for designing structural materials for next-
generation nuclear reactors, for which high entropy alloys (HEAs) and equiatomic …

Selective laser melting (SLM) provides a novel path to fabricate austenitic stainless steels
used in the nuclear reactors. Meanwhile, obvious differences in the microstructures of …

The manufacturing of the new generation of radiation-resistant structural materials is an
extremely interesting and challenging topic in the field of additive manufacturing research …

The present study aimed to investigate the effects of graphene/metal interface on the elastic
properties of Cu and W matrices over a wide range of temperatures through molecular …

This research aims at the X-ray attenuation effect of Graphene oxide (GO) and lead (∣∣)
Oxide (PbO) in epoxy resin (ER). First, GO was synthesized with Hummers' method, then …

Misfit dislocation arrays (MDAs) at semi-coherent heterogeneous interface have been
demonstrated effectiveness to trap and then outgas helium (He) for alleviating void swelling …

Molecular dynamics simulation has been applied to study the mechanisms through which
graphene protects Cu from arc erosion in Cu-W arcing contacts. The impact of arc erosion …