连续性理论无法解释电荷的倒置与反转电渗流这两种现象。
Both charge inversion and flow reversal can't be accounted for in continuum theory.
通过控制电压偏置方向,利用电渗流效应使毛细管多孔导电膜的刻蚀成功率得到显著提高。
The success rate of porous conductive membrane preparation on fused silica capillary was greatly improved by control of voltage bias and electroosmosis effect.
通过物理吸附方法将其涂布在熔融石英毛细管内表面,测定了涂层柱的电渗流及其对碱性蛋白质的分离能力。
The coated column prepared by this method was good enough to repress the electroosmotic flow and the adsorption of the proteins on the capillary wall.
通过物理吸附方法将其涂布在熔融石英毛细管内表面,测定了涂层柱的电渗流及其对碱性蛋白质的分离能力。
The coated column prepared by this method was good enough to repress the electroosmotic flow and the adsorption of the proteins on the capillary wall.
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