Lumin Wang

TL;DR: This study demonstrates enhancement of radiation tolerance with the suppression of void formation by two orders magnitude at elevated temperatures in equiatomic single-phase concentrated solid solution alloys, and reveals its controlling mechanism through a detailed analysis of the depth distribution of defect clusters and an atomistic computer simulation.

TL;DR: It is reported that chemical disorder, with an increasing number of principal elements and/or altered concentrations of specific elements, in single-phase concentrated solid solution alloys can lead to substantial reduction in electron mean free path and orders of magnitude decrease in electrical and thermal conductivity.

TL;DR: In this article, Zirconate and titanate pyrochlores were subjected to 1 MeV of Kr+ irradiation and showed a systematic change in the susceptibility to radiation-induced amorphization with increasing Zr content.

TL;DR: A comprehensive understanding of radiation effects in zircon, ZrSiO4, over a broad range of time scales (0.5 h to 570 million years) has been obtained by a study of natural ZIRcon, Pu-doped Zircon and ion-beam irradiated Zrcon as discussed by the authors.

TL;DR: A combination of experimental and modeling efforts reveals a substantial reduction of damage accumulation under prolonged irradiation in single-phase NiFe and NiCoCr alloys compared to elemental Ni, explained by reduced dislocation mobility, which leads to slower growth of large dislocation structures.