作为溶质扩散系数函数的静止层大小。
The size of the unstirred layer as a function of the solute diffusion coefficient.
作者信息
Pohl P, Saparov S M, Antonenko Y N
机构信息
Medizinische Fakultät, Institute für Medizinische Physik und Biophysik, Martin-Luther-Universität, Halle Germany.
出版信息
Biophys J. 1998 Sep;75(3):1403-9. doi: 10.1016/S0006-3495(98)74058-5.
Abstract
By monitoring the concentration distribution of several solutes that are diffusing at the same time under given mixing conditions, it was established that the unstirred layer (USL) has no clearly defined boundary. For the cases of solute permeation and water movement across planar bilayer lipid membranes, respectively, experiments carried out with double-barreled microelectrodes have shown that the thickness of the USL depends on which species is diffusing. Small molecules with a larger diffusion coefficient encounter an apparently thicker USL than larger molecules with a smaller diffusion coefficient. The ratio of the USL thicknesses of two different substances is equal to the third root of the ratio of the respective diffusion coefficients. This experimental finding is in good agreement with theoretical predictions from the theory of physicochemical hydrodynamics.
摘要
通过监测在给定混合条件下同时扩散的几种溶质的浓度分布,确定未搅拌层(USL)没有明确界定的边界。分别针对溶质透过平面双层脂质膜和水在膜上移动的情况,使用双管微电极进行的实验表明,未搅拌层的厚度取决于扩散的物质种类。扩散系数较大的小分子所遇到的未搅拌层明显比扩散系数较小的大分子所遇到的更厚。两种不同物质的未搅拌层厚度之比等于各自扩散系数之比的立方根。这一实验发现与物理化学流体动力学理论的理论预测高度吻合。
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