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非经典晶体生长解释中心对称甘氨酸晶体极性之谜。

Nonclassical Crystal Growth as Explanation for the Riddle of Polarity in Centrosymmetric Glycine Crystals.

机构信息

Institute of Chemistry and The Fritz Haber Research Center, The Hebrew University , Jerusalem 91904, Israel.

出版信息

J Am Chem Soc. 2016 Nov 9;138(44):14756-14763. doi: 10.1021/jacs.6b09190. Epub 2016 Oct 25.

Abstract

The riddle of anomalous polar behavior of the centrosymmetric crystal of α-glycine is resolved by the discovery of a polar, several hundred nanometer thick hydrated layer, created at the {010} faces during crystal growth. This layer was detected by two independent pyroelectric analytical methods: (i) periodic temperature change technique (Chynoweth) at ambient conditions and (ii) contactless X-ray photoelectron spectroscopy under ultrahigh vacuum. The total polarization of the surface layer is extremely large, yielding ≈1 μC·cm, and is preserved in ultrahigh vacuum, but disappears upon heating to 100 °C. Molecular dynamics simulations corroborate the formation of polar hydrated layers at the sub-microsecond time scale, however with a thickness of only several nanometers, not several hundred. This inconsistency might be reconciled by invoking a three-step nonclassical crystal growth mechanism comprising (i) docking of clusters from the supersaturated solution onto the evolving crystal, (ii) surface recognition and polar induction, and (iii) annealing and dehydration, followed by site-selective recrystallization.

摘要

通过发现α-甘氨酸中心对称晶体在{010}面上生长过程中形成的几百纳米厚的极性水合层,解决了异常极性行为的难题。该层通过两种独立的热释电分析方法检测到:(i)在环境条件下周期性温度变化技术(Chynoweth)和(ii)超高真空下的非接触 X 射线光电子能谱。表面层的总极化非常大,产生约 1 μC·cm,并在超高真空中保持,但在加热至 100°C 时消失。分子动力学模拟证实了在亚微秒时间尺度上形成极性水合层,但厚度仅为数纳米,而不是数百纳米。通过引入包括(i)从过饱和溶液中对接簇到不断发展的晶体上、(ii)表面识别和极性诱导以及(iii)退火和脱水,随后进行选择性再结晶的三步非经典晶体生长机制,可以调和这种不一致性。

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