Optical Absorption Spectra of Divalent Neodymium (Nd²⁺) in Bromide and Iodide Hosts

Abstract: The electronic spectra for Nd2+ ions in bromide and iodide hosts are reported for the first time. These spectra, together with the recently obtained spectra for the chloride matrix, constitute a substantial series of Nd2+ spectra in crystals. Importantly, these crystals differ in the factors important for the physical properties of the divalent lanthanide Ln2+ ions; that is, the ligand's chemical character and the symmetry of the crystal field. The available experimental data allow systematic investigations of… Show more

“…Consequently, it is expected that Nd 2+ can only be stabilised in very wide-bandgap compounds (ε g ≈ 10 eV). To our knowledge, spectroscopic data related to Nd 2+ have thus far been presented only for CaF 2 :Nd [27,28], SrF 2 :Nd [28], BaF 2 :Nd [28], LiCl-KCl melts [29], SrB 4 O 7 :Nd [30], SrCl 2 :Nd [11,31], SrI 2 :Nd and SrBr 2 :Nd [32], and KMgF 3 :Nd [33], in contrast to the several thousands of compounds for which other divalent lanthanides, such as Eu 2+ [9,12,17], have been studied in detail. In the majority of the aforementioned cases, only 4f 4 → 4f 3 5d 1 absorptions were observed [28][29][30], precluding any detailed analysis of the various intraconfigurational 4f 4 → 4f 4 transitions.…”

Divalent and trivalent neodymium photoluminescence in NaMgF3:Nd

“…Consequently, it is expected that Nd 2+ can only be stabilised in very wide-bandgap compounds (ε g ≈ 10 eV). To our knowledge, spectroscopic data related to Nd 2+ have thus far been presented only for CaF 2 :Nd [27,28], SrF 2 :Nd [28], BaF 2 :Nd [28], LiCl-KCl melts [29], SrB 4 O 7 :Nd [30], SrCl 2 :Nd [11,31], SrI 2 :Nd and SrBr 2 :Nd [32], and KMgF 3 :Nd [33], in contrast to the several thousands of compounds for which other divalent lanthanides, such as Eu 2+ [9,12,17], have been studied in detail. In the majority of the aforementioned cases, only 4f 4 → 4f 3 5d 1 absorptions were observed [28][29][30], precluding any detailed analysis of the various intraconfigurational 4f 4 → 4f 4 transitions.…”

Divalent and trivalent neodymium photoluminescence in NaMgF3:Nd

The angular overlap model of ligand field theory for f elements: An intuitive approach building bridges between theory and experiment

Synthesis, spectroscopic properties and applications of divalent lanthanides apart from Eu2+