Growth Rate and Morphology of a Single Calcium Carbonate Crystal on Polysulfone Film Measured with Time Lapse Raman Micro Spectroscopy

B. Liszka, A. Lenferink, C. Otto
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引用次数: 3

Abstract

The growth of single, self- nucleated calcium carbonate crystals on a polysulfone (PSU) film was investigated with high resolution, time lapse Raman imaging. The Raman images were acquired on the interface of the polymer with the crystal. The growth of crystals could thus be followed in time. PSU is a polymer that is used as a membrane material in water cleaning technology. The intensity of the Raman band at the position of 1086 cm-1, which is due to the symmetric stretching of the C-O bonds in the carbonate group of calcite was used to translate the number of CO3 2- ions in a crystal to the growth in time. The growth rate of single crystals of calcium carbonate on a surface was obtained from successive Raman images. We are presenting for the first time time-lapse Raman images of single crystal growth as a direct method to determine a crystal growth rate on an industrially relevant membrane material, like polysulfone.
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用时移拉曼光谱测定聚砜膜上单个碳酸钙晶体的生长速率和形貌
采用高分辨率延时拉曼成像技术研究了单自核碳酸钙晶体在聚砜(PSU)薄膜上的生长。在聚合物与晶体的界面上获得了拉曼图像。这样就可以及时地跟踪晶体的生长。PSU是一种聚合物,在水清洗技术中用作膜材料。利用方解石碳酸盐基团中C-O键对称拉伸引起的1086 cm-1位置的拉曼带强度,将晶体中co32 -离子的数量与生长时间进行了转换。从连续拉曼图像中获得了碳酸钙单晶在表面上的生长速率。我们首次提出单晶生长的延时拉曼图像,作为确定工业相关膜材料(如聚砜)晶体生长速率的直接方法。
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