Determination of electrolyte friction from measurements of the tracer diffusion coefficients, mutual diffusion coefficients, and electrophoretic mobilities of charged spheres

Capillary zone electrophoresis can be used to determine mobilities and diffusion coefficients for analytes. Mobilities are determined from measurements of migration times. Correction for electroosmotic flow must be made by measuring the flow magnitude using an uncharged marker substance. Diffusion c

The free solution mobility of DNA molecules of different molecular weights, the sequence dependence of the mobility, and the diffusion coefficients of small single- and double-stranded DNA (ss- and dsDNA) molecules can be measured accurately by capillary zone electrophoresis, using coated capillarie

Many fundamental electrochemical investigations require accurate values of ionic or molecular diffusion coefficients. Such investigations are frequently carried out under conditions which do not satisfy the requirements of the Nernst expression l or the limiting laws ' -4 Hence diffusion coefllcient

We determined simultaneously the electrophoretic mobility, diffusion coefficient D and molecular orientation during electrophoresis of dsDNAs in polymer solutions ranging from the dilute to the semidilute regime. We established, for the first time, master scaling laws for the diffusion coefficient s

A new technique for mea@% electrophoretic mobilities is described. The method employs a combination of ekctrophoresis techniques with laser beat frequency spectroscopy to measure the Doppler shift of the Raykkh scattered light from a solution of charged bovine serum albumin mokarles in an ekctric fi