Add to ORKGThe magnetic properties of uranium nitride (UN) surfaces are not well understood experimentally or computationally but they have a significant effect on UN performance as a nuclear fuel. We investigated ferromagnetic (FM), antiferromagnetic (AFM), nonmagnetic (NM), and three hybrid magnetic structures of the most stable UN surface (100). To account for electron correlation and metastability, a U-ramp was performed to an effective Hubbard U-term of 2.0 eV. FM was found to be the most energetically favorable magnetic structure. Type 1 AFM slab was optimized to a new magnetic structure consisting of (100) planes with either all spin-up electrons, all spin-down electrons, or half spin-up and half spin-down electrons on uranium atoms. After OH a...
The surface reactivity of thorium and uranium, and how this links to the 5f electrons, has been inve...
Uranium mononitride (UN) continues to be an attractive alternative fuel form for use in light water ...
Uranium mononitride (UN) has been identified as a possible accident tolerant fuel in nuclear reactor...
The magnetic properties of uranium nitride (UN) surfaces are not well understood experimentally or c...
The chemistry of γ-uranium is of primary importance for metal-fueled fast reactors which have been s...
Uranium mononitride, UN, is considered a potential accident tolerant fuel due to its high uranium d...
To mitigate global warming, we need to develop carbon-free ways to generate power. Nuclear energy cu...
Experiments conducted on Uranium Dioxide (UO2) under the Manhattan Project led to the creation of th...
Uranium nitride (UN) is considered as nuclear reactor fuel because of, among other reasons, its high...
Spent nuclear fuel is composed of ≈95% UO2, and upon storage in geologic repository the fuel itse...
The corrosion and oxidation of actinide metals, leading to the formation of metal-oxide surface laye...
A thorough understanding of the chemistry of PuO2 is critical to the design of next-generation nucle...
Determining the electronic structure of actinide complexes is intrinsically challenging because inte...
Given the challenges in experimental studies of uranium, the heaviest naturally occurring metal, we ...
The magnetic structure of the actinide dioxides (AnO2) remains a field of intense research. A low-te...
The surface reactivity of thorium and uranium, and how this links to the 5f electrons, has been inve...
Uranium mononitride (UN) continues to be an attractive alternative fuel form for use in light water ...
Uranium mononitride (UN) has been identified as a possible accident tolerant fuel in nuclear reactor...
The magnetic properties of uranium nitride (UN) surfaces are not well understood experimentally or c...
The chemistry of γ-uranium is of primary importance for metal-fueled fast reactors which have been s...
Uranium mononitride, UN, is considered a potential accident tolerant fuel due to its high uranium d...
To mitigate global warming, we need to develop carbon-free ways to generate power. Nuclear energy cu...
Experiments conducted on Uranium Dioxide (UO2) under the Manhattan Project led to the creation of th...
Uranium nitride (UN) is considered as nuclear reactor fuel because of, among other reasons, its high...
Spent nuclear fuel is composed of ≈95% UO2, and upon storage in geologic repository the fuel itse...
The corrosion and oxidation of actinide metals, leading to the formation of metal-oxide surface laye...
A thorough understanding of the chemistry of PuO2 is critical to the design of next-generation nucle...
Determining the electronic structure of actinide complexes is intrinsically challenging because inte...
Given the challenges in experimental studies of uranium, the heaviest naturally occurring metal, we ...
The magnetic structure of the actinide dioxides (AnO2) remains a field of intense research. A low-te...
The surface reactivity of thorium and uranium, and how this links to the 5f electrons, has been inve...
Uranium mononitride (UN) continues to be an attractive alternative fuel form for use in light water ...
Uranium mononitride (UN) has been identified as a possible accident tolerant fuel in nuclear reactor...