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PbBi(SeO 3 ) 2 F and Pb 2 Bi(SeO 3 ) 2 Cl 3 : Coexistence of Three Kinds of Stereochemically Active Lone-Pair Cations Exhibiting Excellent Nonlinear Optical Properties.

Ying-Jie JiaXingyu ZhangYi-Gang ChenXingxing JiangJia-Neng SongZhe-Shuai LinXian-Ming Zhang
Published in: Inorganic chemistry (2022)
Stereochemically active lone-pair (SCALP) cations are one attractive type of nonlinear optical (NLO)-active units because of their large microcosmic polarizability and anisotropy. Currently, the single and/or dual lone-pair cation-based noncentrosymmetric (NCS) oxides have been extensively investigated and verified to be one class of outstanding NLO materials. From the perspective of function optimization, the integration of three kinds of SCALP cations into one crystal may synergistically improve the NLO properties, which is greatly expected but unexplored to date. Herein, by introducing flexible metal halide bonds to guarantee the stereochemical activity and overcome the energetically favorable antiparallel arrangements of lone-pair cations, the first type of three lone-pair-cation (Pb 2+ , Bi 3+ , and Se 4+ )-coexisting NCS oxides PbBi(SeO 3 ) 2 F ( I ) and Pb 2 Bi(SeO 3 ) 2 Cl 3 ( II ) was obtained. As expected, both compounds show outstanding NLO properties, such as the strong second-harmonic-generation signal (10.5× and 13.5 × KDP), large birefringence (0.103 and 0.186), relatively wide energy band gaps (3.75 and 3.45 eV), and good physicochemical stability. Theoretical calculations demonstrated the effect of three lone-pair-cation-based polyhedra and the halide anion on NLO properties.
Keyphrases
  • ionic liquid
  • heavy metals
  • risk assessment
  • molecular dynamics simulations
  • high resolution
  • density functional theory
  • solid state