Derollez Patrick, Correia Natália T, Danède Florence, Capet Frédéric, Affouard Frédéric, Lefebvre Jacques, Descamps Marc
Laboratoire de Dynamique et Structure des Matériaux Moléculaires (UMR CNRS 8024), UFR de Physique, Bâtiment P5, Université des Sciences et Technologies de Lille, 59655 Villeneuve d'Ascq CEDEX, France.
Acta Crystallogr B. 2005 Jun;61(Pt 3):329-34. doi: 10.1107/S010876810500546X. Epub 2005 May 13.
The high-temperature phase I of anhydrous caffeine was obtained by heating and annealing the purified commercial form II at 450 K. This phase I can be maintained at low temperature in a metastable state. A powder X-ray diffraction pattern was recorded at 278 K with a laboratory diffractometer equipped with an INEL curved position-sensitive detector CPS120. Phase I is dynamically orientationally disordered (the so-called plastic phase). The Rietveld refinements were achieved with rigid-body constraints. It was assumed that on each site, a molecule can adopt three preferential orientations with equal occupation probability. Under a deep undercooling of phase I, below 250 K, the metastable state enters in a glassy crystal state.
通过在450 K下加热并退火纯化的商业II型咖啡因,得到了无水咖啡因的高温I相。该I相可在低温下保持亚稳态。使用配备INEL弯曲位置灵敏探测器CPS120的实验室衍射仪在278 K下记录粉末X射线衍射图谱。I相是动态取向无序的(所谓的塑性相)。通过刚体约束实现了Rietveld精修。假设在每个位点上,一个分子可以以相等的占据概率采用三种优先取向。在I相深度过冷至250 K以下时,亚稳态进入玻璃态晶体状态。
