论 Tl2Pb(SO4)2 的结构和含铊硫酸盐的晶体化学性质

Pengyun Chen
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引用次数: 0

摘要

从 Tl2CO3、Pb(NO3)2 和 H2SO4 开始,通过水热结晶法制备了含铊硫酸盐 Tl2Pb(SO4)2 的单晶。根据单晶 X 射线衍射数据解析了晶体结构:Tl2Pb(SO4)2 晶体的空间群为 R[[方程]]m,晶格参数为 a = 5.5955(2)埃,c = 22.1001(9)埃,Z = 3。该晶体结构可视为沿 c 轴由双层 Tl+夹层的[Pb(SO4)2]2-薄片。从矿物学角度来看,Tl2Pb(SO4)2 属于棕榈岩家族,并可进一步归入棕榈岩超群。利用各种概念,包括键价(BV)、电荷分布(CD)和马德隆晶格能(MAPLE),对结构模型进行了验证。值得注意的是,Tl+ 和 Pb2+ 之间 6s2 孤电子对(LEP)的立体化学活性对比是通过成键行为以及 Wang-Liebau 偏心率(WLE)参数来解释的。此外,还首次对含铊硫酸盐的晶体化学进行了广泛研究,重点是 Tl+ 的配位环境和成键行为以及相应的 WLE 参数。对这些结构相关的化合物进行了比较分析,包括 Tl2Pb(SO4)2、Tl3H(SO4)2、TlBi(SO4)2、TlIn(SO4)2、TlRh(SO4)2 和 TlAl(SO4)2。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the structure of Tl2Pb(SO4)2 and crystal chemistry of thallium‐containing sulfates
Single crystal of a thallium‐containing sulfate Tl2Pb(SO4)2 was prepared through hydrothermal crystallization starting from Tl2CO3, Pb(NO3)2 and H2SO4. The crystal structure was solved from single‐crystal X‐ray diffraction data: Tl2Pb(SO4)2 crystallizes in space group R[[EQUATION]]m with lattice parameters of a = 5.5955(2) Å, c = 22.1001(9) Å, and Z = 3, which is also corroborated by Rietveld refinement on X‐ray powder data. The crystal structure can be regarded as [Pb(SO4)2]2‐ sheets intercalated by double layers of Tl+ along the c‐axis. From a mineralogical perspective, Tl2Pb(SO4)2 belongs to the palmierite family and can further be classified within palmierite‐supergroup. Validation of the structure models was carried out utilizing various concepts including Bond Valence (BV), Charge Distribution (CD) and Madelung Part of Lattice Energy (MAPLE). Notably, a contrast in stereochemical activity of 6s2 lone electron pair (LEP) between Tl+ and Pb2+ is interpreted in terms of bonding behaviours as well as Wang‐Liebau Eccentricity (WLE) parameters. Moreover, an extensive investigation into the crystal chemistry of thallium‐containing sulfates was conducted for the first time, focusing on the coordination environment and bonding behaviour of Tl+ and corresponding WLE parameters. A comparative analysis of these structurally related compounds including Tl2Pb(SO4)2, Tl3H(SO4)2, TlBi(SO4)2, TlIn(SO4)2, TlRh(SO4)2, and TlAl(SO4)2 was delineated.
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