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Large Mid-Infrared Second-Harmonic Generation in Eu(II)-Based Quaternary Chalcogenides

Subhendu Jana, Eric A. Gabilondo, Machima Mongkhonratanachai, Yujie Zhang, P. Shiv Halasyamani, Paul A. Maggard

2024Chemistry of Materials15 citationsDOI

Abstract

Complex metal chalcogenides have received growing attention for second-harmonic generation (SHG) activity arising from their noncentrosymmetric structures. In this area, the impact of the Eu(II)-cation on their structures and optical properties has not been well explored. Synthetic investigations of the Eu–Ag–IV-Ch (IV = Sn or Ge; Ch = S or Se) systems have unveiled four Eu(II)-based quaternary chalcogenides exhibiting very large mid-IR SHG responses within the chemically rich systems II–I 2 -IV-Ch 4 and II 3 –I 2 -IV 2 –Ch 8 (Ch = S or Se; I, II, and IV = monovalent, divalent, and tetravalent cations, respectively). Their structures were characterized by single-crystal X-ray diffraction methods to crystallize in noncentrosymmetric space groups, I 4̅2 m for EuAg 2 GeS 4 ( 1 ) and I 4̅3 d for Eu 3 Ag 2 Ge 2 Se 8 ( 2 ) Eu 3 Ag 2 Sn 2 Se 8 ( 3 ), and Eu 3 Ag 2 Sn 2 S 8 ( 4 ). The structures consist of body-centered arrangements of (Ge/Sn)Ch 4 tetrahedra that are fully oriented and bridged by flattened AgCh 4 tetrahedra into three-dimensional (3D) networks and charge-balanced by Eu(II) cations. Their crystalline powders exhibit mid-IR (2.09 μm) SHG responses among the largest reported to date, ranging from ∼1.9 × AGS (AgGaS 2 ) for 1, to increasing activities of ∼1.9 for 3, ∼4.7 for 2, and ∼7.0 for 4 × AGS. Spin-polarized band structure calculations showed that the valence and conduction band edge states stem from interactions of the Ag-to-S/Se-based and Ge/Sn-to-S/Se-based states, respectively, with increasing contributions of the Eu(II) 4f 7 -based states in the order of 1 < 3 < 2 < 4 . Interestingly, this trend correlates with the SHG activity, suggesting a potential new relationship for understanding and attaining cutting-edge SHG properties within Eu(II)-based chalcogenides. Thus, this family helps tounveil a deeper understanding of structure–optoelectronic/SHG property relationships.

Topics & Concepts

QuaternaryInfraredSecond-harmonic generationMaterials sciencePhysicsGeologyOpticsPaleontologyLaserCrystal Structures and PropertiesSolid-state spectroscopy and crystallographySolid State Laser Technologies
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