First-principles study of luminescence and electronic properties of Ce-doped Y2SiO5

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Sammanfattning

The transition of energy from the 4f to the 5d state is a fundamental element driving various applications, such as phosphors and optoelectronic devices. The positioning of the 4f ground states and the 5d excited states significantly influences this energy shift. In our research, we delve into the placement of these states utilizing a hybrid DFT combined with spin-orbit coupling (SOC) via the supercell method. Additionally, we scrutinize the transition energy, applying the constrained density functional theory (cDFT) approach in conjunction with the $\Delta$SCF method.
Our study illustrates that the synergy of cDFT and SOC generates a discrepancy of about 2\% for Ce1 and 4\% for Ce2 when comparing the calculated results to experimental data. Moreover, We have determined the positions of the 4f ground states to be 2.73 eV above the Valence Band Maximum (VBM) for Ce1 and 2.70 eV for Ce2. We also note a tight correlation between the 5d levels identified in the experimental data and the theoretical outcomes derived from wave function calculations at the CASPT2 (Complete Active Space with Second-order Perturbation Theory) accuracy level.
Originalspråkengelska
Artikelnummer164301
TidskriftThe Journal of chemical physics
Volym159
Nummer16
DOI
StatusPublished - 2023 okt. 23

Ämnesklassifikation (UKÄ)

  • Teoretisk kemi

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