Jia Z H, Schaper A K, Massa W, Treutmann W, Rager H
Department of Geosciences, Material Sciences Center, Philipps University Marburg, Hans-Meerwein-Strasse, D-35032 Marburg, Germany.
Acta Crystallogr B. 2006 Aug;62(Pt 4):547-55. doi: 10.1107/S0108768106016612. Epub 2006 Jul 12.
While the incommensurability in melilites is well documented, the underlying atomic configurations and the composition-dependent phase behavior are not yet clear. We have studied the transition from the incommensurate phase to the high-temperature normal phase (IC-N), and to the low-temperature commensurate phase (IC-C) of selected members of the Ca(2)Co(1 - x)Zn(x)Si(2)O(7) system using X-ray and single-crystal electron diffraction, as well as calorimetric measurements. The space group of the unmodulated normal phase and of the basic structure of the incommensurate phase is P42(1)m; the commensurate lock-in superstructure was refined as a pseudomerohedral twin in the orthorhombic space group P2(1)2(1)2. We found that the commensurate modulation is mainly connected with a sawtooth-like periodicity of rotations of the T(1) tetrahedra in the 3 x 3 superstructure. In this structure, the clustering of the low-coordinated Ca(2+) ions is not complete so that only imperfect octagons were detected. Generally, the effect of increasing substitution of Co by Zn was a continuous reduction of the IC-N and IC-C transition temperatures.
虽然镁黄长石中的非公度性已有充分记录,但潜在的原子构型和成分依赖的相行为尚不清楚。我们利用X射线和单晶电子衍射以及量热测量,研究了Ca(2)Co(1 - x)Zn(x)Si(2)O(7)体系中选定成员从非公度相到高温正常相(IC-N)以及到低温共格相(IC-C)的转变。未调制正常相和非公度相基本结构的空间群为P42(1)m;共格锁定超结构被细化为正交空间群P2(1)2(1)2中的假单斜孪晶。我们发现,共格调制主要与3×3超结构中T(1)四面体旋转的锯齿状周期性相关。在这种结构中,低配位Ca(2+)离子的聚集并不完全,因此只检测到不完美的八边形。一般来说,用Zn取代Co的比例增加的效果是IC-N和IC-C转变温度的持续降低。
