麻豆淫院

As core components for generating coherent tunable radiation sources in all-solid-state lasers, second-order nonlinear optical (NLO) crystals have demonstrated significant technical advantages in many fields. Metal chalcogenides with tetrahedral cluster (Tn) as the structural unit are regarded as candidate systems for NLO materials of the mid- and far-infrared bands due to their potential strong second-harmonic-generation (SHG) response and wide infrared transmission range.

However, Tn anionic clusters usually tend to coordinate with organic ligand cation, forming common tetrahedral-based organic-inorganic hybrid materials. Due to the presence of organic functional groups, these materials inevitably exhibit characteristic vibrational or rotational absorption peaks in the infrared spectrum, which is contrary to the goal of designing NLO materials with infrared transmission.

In a study in Angewandte Chemie International Edition, Prof. Guo Guocong and Prof. Liu Binwen from Fujian Institute of Research on the Structure of Matter of the Chinese Academy of Sciences proposed an innovative strategy that uses inorganic (X₄K₈Ba₂)⁸⁺ (X = Cl, Br) cations with a T2-supertetrahedral configuration to replace traditional organic ligand cations as structure-directing agents, and constructed two new three-dimensional salt-inclusion chalcogenides, namely [K₄BaX₂][In₆Se₁₁] (X = Cl, Br).

Researchers found that the isolated (X₄K₈Ba₂)⁸⁺ polycation has a high positive charge density and an appropriate size, which not only meets the charge balance requirements of the T2-supertetrahedral anion clusters, but also significantly promotes the construction of a three-dimensional anionic framework.

Importantly, inorganic salt polycations are typically characterized by chemical bond vibrations and multi-phonon absorptions, with their absorption frequency bands significantly extending beyond the mid- and far-infrared regions, thereby demonstrating excellent properties with a wide infrared transparency range.

Measurements of optical properties showed that both of the two salt-inclusion chalcogenides exhibit significant phase-matching second harmonic generation (SHG) intensity, which is mainly attributed to the parallel alignment of the NLO functional motif T2-(In₄Se₁₀)^8鈭� clusters.

The moderate optical band gap and low thermal expansion coefficient jointly contributed to [K₄BaCl₂][In₆Se₁₁] showing a high laser-induced damage threshold. Besides, [K₄BaCl₂][In₆Se₁₁] achieved an infrared transparency range as wide as 0.7鈥�18.1 碌m, which is closely related to the introduction of the (Cl₄K₈Ba₂)⁸⁺ polycation.

This study provides a feasible approach for designing NLO materials with both excellent SHG response and wide infrared transparency range.