Calculated vibration spectrum of calcium hexahydroxodizincate dihydrate (qatranaite).

Andrei Postnikov, Anna Majtyka-Piłat, Dariusz Chrobak, Józef Deniszczyk
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Abstract

On the basis of first-principles electronic structure calculations, crystallographic parameters have been refined for calcium hydroxozincate (Qatranaite mineral), and the vibration properties (frequencies and eigenvectors) calculated. A detailed analysis of vibration modes is done, in the context of comparison with infrared and Raman spectra previously available. Special attention is paid to a posteriori symmetry analysis of vibration modes, discussing the latters' attribution to four irreducible representations of the P21/c space group, and to identifying stretchings and bendings of particular chemical bonds, pronounced in different vibrations. It turns out that high-frequency (>700 cm-1) vibrations of hydroxyl groups bridging the Ca or Zn cations differ quite considerably for crystallographically distinct hydroxyl positions. It is shown that the vibrations involving hydroxyl groups and crystalline water typically come about in quadruplets at very close frequencies, whereby different irreducible representations reflect different combinations of similar "molecular" vibrations of four identical entities (of each hydroxyl or water) present in the unit cell. However, some vibrations show exceptions from this rule. In addition to interpretation of earlier experimental investigations, our study indicates that the low-frequency (<700 cm-1) vibrations within the cation-hydroxyl connected skeleton are of more "solid-state-like" character and cannot be reasonably interpreted in terms of "molecular" vibrations within ZnO4 or CaO6 units.

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二水六羟基二锌酸钙(qatranaite)的计算振动光谱。
在第一原理电子结构计算的基础上,完善了羟基锌酸钙(Qatranaite 矿物)的晶体学参数,并计算了其振动特性(频率和特征向量)。在与之前获得的红外光谱和拉曼光谱进行比较的基础上,对振动模式进行了详细分析。研究特别关注振动模式的后验对称性分析,讨论了后验对称性对 P21/c 空间群的四种不可还原表征的归属,并确定了在不同振动中明显的特定化学键的伸展和弯曲。结果发现,对于晶体学上不同的羟基位置,桥接 Ca 或 Zn 阳离子的羟基的高频(>700 cm-1)振动差异很大。研究表明,涉及羟基和结晶水的振动通常以非常接近频率的四联振形式出现,不同的不可还原表征反映了单位晶胞中存在的四个相同实体(每个羟基或水)的类似 "分子 "振动的不同组合。然而,某些振动显示出这一规则的例外情况。除了对早期实验研究的解释之外,我们的研究还表明,阳离子-羟基连接骨架内的低频(-1)振动更具有 "固态 "特征,不能用 ZnO4 或 CaO6 单元内的 "分子 "振动来合理解释。
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