Synchrotron radiation techniques and their application to actinide materials
Research on actinide materials, both basic and applied, has been greatly advanced by the
general techniques available from high-intensity photon beams from x-ray synchrotron …
general techniques available from high-intensity photon beams from x-ray synchrotron …
Recent progress on interfaces in nanomaterials for nuclear radiation resistance
Interfaces including grain boundaries and hetero‐phase interfaces could withstand the
radiation damage via providing sites for trap** the defects. With the urgent demand for …
radiation damage via providing sites for trap** the defects. With the urgent demand for …
Fabrication of phosphate-containing mesoporous carbon for fast and efficient uranium (VI) extraction
X Zhang, R Liu, H Wang, L Liu, C Yue - Colloids and Surfaces A …, 2023 - Elsevier
Uranium has been recognized as one of the most desired radionuclides that has long been
used in reactor. The efficient extraction of uranyl (VI) ions from radioactive effluents and …
used in reactor. The efficient extraction of uranyl (VI) ions from radioactive effluents and …
Dislocation loop evolution in Kr‐irradiated ThO2
The early stage of microstructural evolution of ThO2, under krypton irradiation at 600, 800,
and 1000° C, was investigated using in situ transmission electron microscopy (TEM) …
and 1000° C, was investigated using in situ transmission electron microscopy (TEM) …
Phonon Thermal Transport in via Self-Consistent Perturbation Theory
Computing thermal transport from first-principles in UO 2 is complicated due to the
challenges associated with Mott physics. Here, we use irreducible derivative approaches to …
challenges associated with Mott physics. Here, we use irreducible derivative approaches to …
Machine learning potential assisted exploration of complex defect potential energy surfaces
Atomic-scale defects generated in materials under both equilibrium and irradiation
conditions can significantly impact their physical and mechanical properties. Unraveling the …
conditions can significantly impact their physical and mechanical properties. Unraveling the …
Construction of functionalized microcapsule adsorbents using emulsion templates for simultaneous thermal storage and selective adsorption of uranium
Y Cai, X Chen, J Xu, X Ding, X Tian, Y Zhou, Y Huang… - Desalination, 2024 - Elsevier
The treatment of nuclear wastewater generates substantial amount of uranium (U (VI))
contaminated wastewater, along with waste heat. Efficiently extracting U (VI) while …
contaminated wastewater, along with waste heat. Efficiently extracting U (VI) while …
A combined theoretical-experimental investigation of thermal transport in low-dose irradiated thorium dioxide
During reactor operation, nuclear fuels are subject to extreme temperature and irradiation
conditions which can significantly degrade the fuel's thermal transport properties. The …
conditions which can significantly degrade the fuel's thermal transport properties. The …
Biphenarenes, versatile synthetic macrocycles for supramolecular chemistry
W Zhang, W Yang, J Zhou - Molecules, 2023 - mdpi.com
The development of supramolecular chemistry has always been accompanied by the
innovation of macrocyclic hosts. The synthesis of novel macrocycles with unique structures …
innovation of macrocyclic hosts. The synthesis of novel macrocycles with unique structures …
Impact of small defects and dislocation loops on phonon scattering and thermal transport in ThO2
Radiation damage can significantly degrade the thermal conductivity of ThO 2 due to
enhanced phonon-defect scattering. To quantify the effect of radiation-induced defects on …
enhanced phonon-defect scattering. To quantify the effect of radiation-induced defects on …