The nature of the chemical bond in UO₂

Abstract: The nature of the chemical bond in UO2 was analyzed taking into account the X‐ray photoelectron spectroscopy (XPS) structure parameters of the valence and core electrons, as well as the relativistic discrete variation electronic structure calculation results for this oxide. The ionic/covalent nature of the chemical bond was determined for the UO8 (D4h) cluster, reflecting uranium's close environment in UO2, and the U13O56 and U63O216 clusters, reflecting the bulk of solid uranium dioxide. The bar graph of the … Show more

“…This indicates the formation of irradiation induced oxygen vacancies, which may be the origin of the observed voids [47]. Furthermore, the shift of the lattice component of O1s to lower binding energies confirms that defect formation is associated with electronic charge transfer，and the formation of oxygen vacancies [48]. The formation of oxygen vacancies is further supported by a notable decrease in the oxygen signal observed in EDS relative to Ca and P, although these data are not conducive to quantitative interpretation.…”

Enhancement of hydroxyapatite dissolution through structure modification by Krypton ion irradiation

“…This indicates the formation of irradiation induced oxygen vacancies, which may be the origin of the observed voids [47]. Furthermore, the shift of the lattice component of O1s to lower binding energies confirms that defect formation is associated with electronic charge transfer，and the formation of oxygen vacancies [48]. The formation of oxygen vacancies is further supported by a notable decrease in the oxygen signal observed in EDS relative to Ca and P, although these data are not conducive to quantitative interpretation.…”

Enhancement of hydroxyapatite dissolution through structure modification by Krypton ion irradiation

Photoionization cross-sections of valence ns and np (n = 2,3) atomic shells in soft x-ray region

Copper/ cerium metal organic frame work as highly efficient structures for solar power-induced hydrogen generation through the process of water splitting