Ferroelectric materials, and more specifically ferroelectric domain walls (DWs) have become an area of intense research in recent years. Novel…
We have made observations of noble metal phase fission-product agglomerates and gaseous xenon within the fuel-cladding interaction (FCI) zone of…
Growing III-nitride nanowires on 2D materials is advantageous as it effectively decouples the underlying growth substrate from the properties of…
The combination of two active Li-ion materials (Ge and Sn) can result in improved conduction paths and higher capacity retention.…
Conducting nuclear materials analysis at the micron scale offers a number of advantages over the bulk scale, including: (1) access…
Domain wall nanoelectronics is a rapidly evolving field, which explores the diverse electronic properties of the ferroelectric domain walls for…
We assess the validity of criteria based on size mismatch and thermodynamics in predicting the stability of the rare class…
Metallic particles formed in oxide fuels (e.g., UO2) during neutron irradiation have an adverse impact on fuel performance. A fundamental…
A better understanding of how production pathway affects the final product is required in order to produce targeted syntheses, but…
Models for long‐term glass alteration are required to satisfy performance predictions of vitrified nuclear waste in various disposal scenarios. Durability…