太赫兹光谱学揭示水相碳酸钙溶液中液-液相分界限的位置的水动力学。

Water Dynamics from THz Spectroscopy Reveal the Locus of a Liquid-Liquid Binodal Limit in Aqueous CaCO Solutions.

机构信息

Lehrstuhl für Physikalische Chemie 2, Ruhr-Universität Bochum, Universitätsstrasse 150, 44801, Bochum, Germany.

Physical Chemistry, University of Konstanz, Universitätsstrasse 10, 78457, Konstanz, Germany.

出版信息

Angew Chem Int Ed Engl. 2017 Jan 9;56(2):490-495. doi: 10.1002/anie.201610554. Epub 2016 Dec 28.

DOI:10.1002/anie.201610554

PMID:28029201

Abstract

Many phenomena depend on CaCO nucleation where the role of water remains enigmatic. Changes in THz absorption during the early stages of CaCO nucleation evidence altered coupled motions of hydrated calcium and carbonate ions. The direct link between these changes and the continuous development of the ion activity product reveals the locus of a liquid-liquid binodal limit. The data strongly suggest that proto-structured amorphous CaCO forms through solidification of initially liquid precursors. Furthermore, polycarboxylates, which stabilize liquid precursors of CaCO , significantly enhance the kinetic stability of the metastable liquid-liquid state, but they do not affect the locus of the binodal limit. The importance of water network dynamics in phase separation mechanisms can be understood based on the notions of the pre-nucleation cluster pathway, and is likely to be more general for aqueous systems.

摘要

许多现象都依赖于碳酸钙成核，而水在其中的作用仍然是个谜。在碳酸钙成核的早期阶段，太赫兹吸收的变化证明了水合钙离子和碳酸根离子的耦合运动发生了改变。这些变化与离子活度积的持续发展之间的直接联系揭示了液-液双结点极限的位置。这些数据强烈表明，通过最初的液态前体的凝固形成了原结构的无定形碳酸钙。此外，稳定碳酸钙的液态前体的多羧酸显著增强了亚稳的液-液状态的动力学稳定性，但它们并不影响双结点极限的位置。基于成核前团聚体途径的概念，可以理解水网络动力学在相分离机制中的重要性，而且对于水溶液体系可能更为普遍。

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太赫兹光谱学揭示水相碳酸钙溶液中液-液相分界限的位置的水动力学。

Water Dynamics from THz Spectroscopy Reveal the Locus of a Liquid-Liquid Binodal Limit in Aqueous CaCO Solutions.

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