Synthesis and Crystal Structures of Two Crystalline Silicic Acids: Hydrated H-Apophyllite, H16Si16O40 • 8–10 H2O and H-Carletonite, H32Si64O144

Crystals Pub Date : 2024-03-30 DOI:10.3390/cryst14040326

Bernd Marler, I. Grosskreuz

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Abstract

Hydrated H-Apophyllite (HH-Apo) and H-carletonite (H-Car) were synthesized at 0 °C by leaching an apophyllite and a carletonite single crystal in a large surplus of 1.2 molar hydrochloric acid. The XRD powder patterns of HH-Apo and H-Car were indexed with space group symmetries of P4/ncc and I4/mcm and lattice parameters of a = 8.4872(2) Å, c = 16.8684(8) Å and a = 13.8972(3) Å, c = 20.4677(21) Å, respectively. The crystal structures were solved based on model building of the structures of the precursors and a physico-chemical characterization. Rietveld structure refinements confirmed the structure models. HH-Apo and H-Car are among the very few crystalline silicic acids whose structures have been determined and confirmed based on a structure refinement. The structure of HH-Apo contains thin silicate monolayers that can be regarded as constructed by rings of interconnected [SiO3OH] tetrahedra which form a puckered silicate layer. A sheet of water molecules is intercalated between the silicate layers. There are no direct hydrogen bonds between the silanol groups, but there are hydrogen bonds of different strengths between the terminal O atoms of the silicate layers and the intercalated water molecules. The 1H MAS NMR spectrum presents a strong signal at 4.9 ppm related to the aforementioned bonds and interactions between the water molecules, as well as a small signal at 22.5 ppm corresponding to an extremely strong hydrogen bond with d(O… O) ≈ 2.2 Å. The structure of H-Car is free of structural water and consists exclusively of microporous silicate double-layers with 4-connected [SiO4] and 3-connected [SiO3OH] tetrahedra in a ratio of 1:1 and a thickness of 9.2 Å. Neighboring layers are connected to each other by medium–strong hydrogen bonds with O…O distances of 2.56 Å. The structure of HH-Apo decays within several hours while H-Car is stable. A topotactic condensation reaction applied to H-Car forms an irregularly condensed silicate which still contains the layers in a distorted form as building blocks.

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两种结晶硅酸的合成与晶体结构：水合 H-Apophyllite, H16Si16O40 - 8-10 H2O 和 H-Carletonite, H32Si64O144

通过在大量过剩的1.2摩尔盐酸中浸泡叶蜡石和钙铈镧矿单晶，在0 °C下合成了水合H-叶蜡石（HH-Apo）和H-钙铈镧矿（H-Car）。HH-Apo 和 H-Car 的 XRD 粉末图谱的空间群对称性分别为 P4/ncc 和 I4/mcm，晶格参数分别为 a = 8.4872(2) Å, c = 16.8684(8) Å 和 a = 13.8972(3) Å, c = 20.4677(21) Å。晶体结构是在前体结构模型建立和物理化学特征描述的基础上求解的。里特维尔德结构改进证实了这些结构模型。HH-Apo 和 H-Car 是极少数通过结构细化确定和确认结构的结晶硅酸。HH-Apo 的结构包含薄薄的硅酸盐单层，可视为由相互连接的[SiO3OH]四面体环构成的皱褶硅酸盐层。硅酸盐层之间夹有一层水分子。硅醇基之间没有直接的氢键，但硅酸盐层的末端 O 原子与夹层水分子之间存在不同强度的氢键。1H MAS NMR 光谱在 4.9 ppm 处显示了一个与上述键和水分子间相互作用有关的强信号，同时在 22.5 ppm 处显示了一个与 d(O... O) ≈ 2.2 Å 的极强氢键相对应的小信号。H-Car 的结构不含结构水，完全由微孔硅酸盐双层组成，其中有 4 个相连的[SiO4]和 3 个相连的[SiO3OH]四面体，比例为 1:1，厚度为 9.2 Å，相邻层之间通过中等强度的氢键相连，O...O 间距为 2.56 Å。H-Car 的拓扑缩合反应形成了一种不规则缩合的硅酸盐，其中仍包含以扭曲形式存在的各层结构单元。

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Crystals

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