Thiory : Electroosmotic Flow

The electroosmotic flow (EOF) is caused by applying high-voltage to an electrolyte-filled capillary.⁴ This flow occurs when the buffer running through the silica capillary has a pH greater than 3 and the SiOH groups lose a proton to become SiO^- ions. The capillary wall then has a negative charge, which develops a double layer of cations attracted to it. The inner cation layer is stationary, while the outer layer is free to move along the capillary. The applied electric field causes the free cations to move toward the cathode creating a powerful bulk flow. The rate of the electroosmotic flow is governed by the following equation:

where ε is the dielectric constant of the solution, η is the viscosity of the solution, E is the field strength, and ζ is the zeta potential. Because the electrophoretic mobility is greater than the electroosmotic flow, negatively charged particles, which are naturally attracted to the positively charged anode, will separate out as well. The EOF works best with a large zeta potential between the cation layers, a large diffuse layer of cations to drag more molecules towards the cathode, low resistance from the surrounding solution, and buffer with pH of 9 so that all the SiOH groups are ionized.

Figure  :Electroosmotic Flow due to Applied Voltage

مواضيع ذات صلة

التحليل الطيفي

الإشعاع الكهرومغناطيسي Electromagnetic Radiation

مكونات الجهاز المستخدم في التحليل الالي

طرق التحليل الآلي Instrumental Methods) )

اطياف الاشعة تحت الحمراء

تشتت الدوران البصري والانكسار المزدوج الدائري

مطياف الفلورة (التألق) Fluorescence spectroscopy

الضوء المستقطب والنشاط الضوئي

الدوران النوعي

البولاريمتر

Electrophoretic Mobility 2

Capillary Electrophoresis 2