Point defects reduce lattice thermal conductivity in UN at low temperatures with uranium interstitials causing broadest scattering, while electronic contributions dominate above 600 K and match experiment when included, becoming negligible in defective cases.
Proceedings of the Physical Society
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
citation-role summary
method 1
citation-polarity summary
fields
cond-mat.mtrl-sci 2years
2026 2verdicts
UNVERDICTED 2roles
method 1polarities
use method 1representative citing papers
First-principles modeling shows BVB defects create intermediate bands for solar cells and PV defects enable high room-temperature conductivity via impurity bands in diamond diodes without harming mobility or thermal conductivity.
citing papers explorer
-
Thermal Transport in Defective Uranium Nitride: Effects of Point Defects, Anharmonicity, and Electronic Contributions
Point defects reduce lattice thermal conductivity in UN at low temperatures with uranium interstitials causing broadest scattering, while electronic contributions dominate above 600 K and match experiment when included, becoming negligible in defective cases.
-
From Defects to Devices: Design Guidelines for High-Performance Diamond-Based Solar Cells and Single-Dopant Diodes
First-principles modeling shows BVB defects create intermediate bands for solar cells and PV defects enable high room-temperature conductivity via impurity bands in diamond diodes without harming mobility or thermal conductivity.