1h -吡唑-1硝酸钾胺的低温相变和高压相稳定性

Piotr Rejnhardt, M. Drozd, M. Daszkiewicz
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引用次数: 0

摘要

在174 K的温度依赖实验中观察到的相变在高压条件下是无法实现的。观察到相(II)的负热膨胀和相(I)的负压缩率。以结晶形式制备了一种用于鸟酰化反应的新型1h -吡唑-1-羧胺盐(HPyCA)NO3。该化合物在单斜晶群P21/c中结晶,在174 K时发生了向三斜晶群p1的相变。在转变后,观察到细胞体积异常增加。虽然冷却后体积减小,但与(I)相的单位胞体积相比,在160 K时体积仍然较大。相变的机制与硝酸盐阴离子的轻微运动有关。在高达1.27 GPa的室温高压条件下无法达到三斜相。在进一步压缩时,观察到晶体分层。相(I)表现为负线性压缩率,而在冷却时观察到b单元胞参数的异常行为,表明负热线性膨胀。这种化合物的不寻常性质与二维氢键网络有关,它比连接氢键层的堆叠相互作用更不容易变形。采用红外光谱和差示扫描量热法研究了相变过程中分子间相互作用的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-temperature phase transition and highpressure phase stability of 1H-pyrazole-1carboxamidine nitrate
The phase transition observed in a temperature-dependent experiment at 174 K is unachievable under high-pressure conditions. Negative thermal expansion for phase (II) and negative compressibility for phase (I) were observed. A new salt of 1H-pyrazole-1-carboxamidine, (HPyCA)NO3, for guanylation reaction was obtained in a crystalline form. The compound crystallizes in monoclinic space group P21/c and a phase transition at 174 K to triclinic modification P 1 was found. An unusual increase of the unit-cell volume was observed just after transition. Although the volume decreases upon cooling, it remains higher down to 160 K in comparison to the unit-cell volume of phase (I). The mechanism of the phase transition is connected with a minor movement of the nitrate anions. The triclinic phase was unreachable at room-temperature high-pressure conditions up to 1.27 GPa. On further compression, delamination of the crystal was observed. Phase (I) exhibits negative linear compressibility, whereas abnormal behaviour of the b unit-cell parameter upon cooling was observed, indicating negative thermal linear expansion. The unusual nature of the compound is associated with the two-dimensional hydrogen-bonding network, which is less susceptible to deformation than stacking interactions connecting the layers of hydrogen bonds. Infrared spectroscopy and differential scanning calorimetry measurements were used to investigate the changes of intermolecular interactions during the phase transition.
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