Ba1.63La7.39Si11N23Cl0.42:Ce3+ – A Nitridosilicate Chloride with a Zeolite‐Like Structure

The nitridosilicate chloride Ba_1.63La_7.39Si₁₁N₂₃Cl_0.42:Ce³⁺ was synthesized by metathesis reaction starting from LaCl₃, BaH₂, CeF₃ and the product of the ammonolysis of Si₂Cl₆. The title compound is stable towards air and moisture. Diffraction data of a microcrystal were recorded using microfocused synchrotron radiation. X‐ray spectroscopy confirms the chemical composition of the crystal. IR spectra corroborate absence of N–H bonds. The compound is homeotypic to Ba₂Nd₇Si₁₁N₂₃ and crystallizes in space group Cmmm with a = 11.009(3), b = 23.243(8), c = 9.706(4) Å and Z = 4, R₁(all) = 0.0174. According to bond valence sum calculations, some crystallographic positions show complete occupancy by Ba or La whereas others contain significant amounts of both elements. In contrast to the structure prototype Ba₂Nd₇Si₁₁N₂₃, Ba_1.63La_7.39Si₁₁N₂₃Cl_0.42:Ce³⁺ contains chloride ions in channels of the SiN₄ tetrahedra network, hinting at various substitution possibilities of the complex zeolite‐like structure.