Crystallization of ultraphosphates via the gas phase. The crystal structures of FeP4O11, ZnP4O11 and CdP4O11

European Journal of Solid State and Inorganic Chemistry Pub Date : 1998-06-01 DOI:10.1016/S0992-4361(98)80026-X

M. Weil, R. Glaum

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引用次数: 18

Abstract

The new ultraphosphates FeP₄O₁₁, ZnP₄O₁₁ and CdP₄O₁₁ of the CuP₄O₁₁ structure type were synthesized from the corresponding meta- or polyphosphates and P₄O₁₁. Crystallization via the gas phase has been achieved at elevated temperatures using a mixture of P (3 mg) and I₂ (50 mg) as mineralizer. The crystal structure consists of a two-dimensional phosphate network, built from four crystallographically independent 10-membered polyphosphate rings. Each ring contains four secondary and six tertiary PO₄-groups. Two crystallographically independent metal sites showing sixfold coordination by terminal oxygen atoms are located inbetween the phosphate layers. FeO₆-octahedra (2.028(3) Å < d̄ FeO₆ < 2.268(3) Å) and ZnO₆ octahedra (2.002(2) Å < d̄ ZnO₆ < 2.256(2) Å) exhibit slightly larger radial distortion than the CdO₆-octahedra (2.215(7) Å < d̄ CdO₆ < 2.383(3) Å).

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超磷酸盐的气相结晶。研究了FeP4O11、ZnP4O11和CdP4O11的晶体结构

以相应的元磷酸盐或多磷酸盐和P4O11为原料，合成了CuP4O11结构类型的新型超磷酸盐FeP4O11、ZnP4O11和CdP4O11。使用P (3mg)和I2 (50mg)的混合物作为矿化剂，在高温下通过气相实现结晶。晶体结构由一个二维磷酸盐网络组成，由四个晶体学上独立的10元聚磷酸盐环组成。每个环包含4个二级基团和6个三级基团。两个晶体学上独立的金属位显示六倍配位的末端氧原子位于磷酸盐层之间。八面体feo6 (2.028(3) Å <d ' FeO6 <2.268(3) Å)和ZnO6八面体(2.002(2)Å <d ' ZnO6 <2.256(2) Å)比cdo6 -八面体(2.215(7)Å <d ' CdO6 <2.383(3))。

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European Journal of Solid State and Inorganic Chemistry

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