Advanced Science (Feb 2023)

The Antiperovskite‐Type Oxychalcogenides Ae3Q[GeOQ3] (Ae = Ba, Sr; Q = S, Se) with Large Second Harmonic Generation Responses and Wide Band Gaps

  • Shaoxin Cui,
  • Hongping Wu,
  • Zhanggui Hu,
  • Jiyang Wang,
  • Yicheng Wu,
  • Hongwei Yu

DOI
https://doi.org/10.1002/advs.202204755
Journal volume & issue
Vol. 10, no. 4
pp. n/a – n/a

Abstract

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Abstract Oxychalcogenides capable of exhibiting excellent balance among large second‐harmonic generation (SHG) response, wide band gap (Eg), and suitable birefringence (Δn) are ideal materials class for infrared nonlinear optical (IR NLO) crystals. However, rationally designing a new high‐performance oxychalcogenide IR NLO crystal still faces a huge challenge because it requires the optimal orientations of the heteroanionic groups in oxychalcogenide. Herein, a series of antiperovskite‐type oxychalcogenides, Ae3Q[GeOQ3] (Ae = Ba, Sr; Q = S, Se), which were synthesized by employing the antiperovskite‐type Ba3S[GeS4] as the structure template. Their structures feature novel three‐dimensinoal frameworks constructed by distorted [QAe6] octahedra, which are further filled by [GeOQ3] tetrahedra to form antiperovskite‐type structures. Based on the unique antiperovskite‐type structures, the favorable alignment of the polarizable [GeOQ3] tetrahedra and distorted [QAe6] octahedra have been achieved. These contribute the ideal combination of large SHG response (0.7–1.5 times that of AgGaS2), wide Eg (3.52–4.10 eV), and appropriate Δn (0.017–0.035) in Ae3Q[GeOQ3]. Theoretical calculations and crystal structure analyses revealed that the strong SHG and wide Eg could be attributed to the polarizable [GeOQ3] tetrahedra and distorted [QAe6] octahedra. This research provides a new exemplification for the design of high‐performance IR NLO materials.

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