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Abstract Diamond‐like (DL) metal chalcogenides have attracted significant attention in recent years because of their complex structural compositions and exceptional nonlinear optical (NLO) capabilities in the infrared (IR) range. Despite notable advancements in this field, there is still a lack of systematic research on high‐performance and simply composed IR‐NLO chalcogenides with DL structures. In this study, the insightful structural characteristics and IR‐NLO properties of a ternary Ag‐based chalcogenide Ag 2 GeS 3 are investigated for the first time at both experimental and theoretical levels. The compound belongs to the non‐centrosymmetric Cmc 2 1 space group (No.36) and displays a 3D DL structure comprising highly oriented AgS 4 and GeS 4 tetrahedra. Due to its distinct structure, the compound may produce significant second harmonic generation (SHG) response (5.6 × AgGaS 2 at 2050 nm), the biggest value reported among Ag‐based IR‐NLO chalcogenides to date, and phase matchability in the IR range with a calculated birefringence of Δ n = 0.09 at 2050 nm. According to theoretical calculations, the combined impacts of the distorted AgS 4 and GeS 4 NLO‐active motifs inside the 3D DL framework provide the SHG tensor d 24 of Ag 2 GeS 3 at 51.9 pm V −1 at 2050 nm. The prospective uses of Ag 2 GeS 3 in the field of IR‐NLO are highlighted in this work.
Chen et al. (Thu,) studied this question.
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