Ammonothermal Synthesis and Crystal Structure of the Ternary Amide Na2Ba(NH2)4

F. M. Engelsberger, Kristian Witthaut, W. Schnick
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Abstract

The ternary amide Na2Ba(NH2)4 was synthesized at ammonothermal conditions (870 K, 135 MPa) in custom‐built high‐pressure autoclaves. The compound was structurally characterized using X‐ray diffraction and crystallizes in space group Pccn (no. 56) with lattice parameters a = 10.6492(2), b = 7.8064(2) and c = 8.1046(2) Å. To the best of our knowledge, the structure type has not yet been observed in any ternary amide before and can be described as a defective variant of the NaCl structure type. The presence of amide ions in the compound is verified by Fourier‐transform infrared (FTIR) spectroscopy and the experimental spectrum is compared to the theoretical spectrum obtained through density functional theory (DFT) calculations. Na2Ba(NH2)4 complements the range of reported ternary alkali metal alkaline‐earth metal amides with the smallest Shannon radius ratio of rA/AE = 0.76. The influence of this ratio on the formation of the new structure type is discussed as well. The characterization of intermediate species such as this ternary amide extends the understanding of the ammonothermal synthesis and can be useful for synthetic control in the formation of nitrides at ammonothermal conditions.
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三元酰胺 Na2Ba(NH2)4 的氨热合成和晶体结构
三元酰胺 Na2Ba(NH2)4 是在氨热条件下(870 K,135 MPa)在定制高压釜中合成的。该化合物采用 X 射线衍射法进行了结构表征,其晶体为空间群 Pccn(编号 56),晶格参数 a = 10.6492(2)、b = 7.8064(2)和 c = 8.1046(2)埃。据我们所知,这种结构类型以前从未在任何三元酰胺中观察到过,可以说是 NaCl 结构类型的缺陷变体。傅立叶变换红外光谱(FTIR)验证了化合物中酰胺离子的存在,并将实验光谱与通过密度泛函理论(DFT)计算得到的理论光谱进行了比较。Na2Ba(NH2)4 以最小的香农半径比 rA/AE = 0.76 补充了已报道的碱金属-土金属三元酰胺的范围。我们还讨论了这一比率对新结构类型形成的影响。对这种三元酰胺等中间产物的表征扩展了对氨热合成的理解,有助于在氨热条件下形成氮化物的合成控制。
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