Electrophoretic Mobility of Biological Cells in Asymmetric Electrolyte Solutions

The analytical theory of the thin double layer concentration polarization in suspensions of colloidal particles is generalized to the case of weak electrolyte solutions, i.e., when the dissociationrecombination equilibrium and rate constants have both finite values. It is shown that under the action

The capillary array electrophoretic NMR (CA-ENMR) was developed to study protein mixtures in biological buffer solutions of high ionic strength. By enhancing the strength of the effective electric field across the sample, the technique permits the detection of the electrophoretic motion of 1 mM lyso

## Abstract The distribution of center of mass electrophoretic mobility mobilities and normalized migration time of up to 1080 λ DNA molecules per experiment were measured in both semidilute hydroxyethylcellulose HEC/0.5× Tris‐borate‐EDTA (TBE) solutions and dilute HEC/0.5×TBE solution by high‐spee

The ratio of the critical coagulation concentration (CCC) of counterions is evaluated for spherical particles and asymmetric electrolytes. A perturbation method is adopted to solve the Poisson-Boltzmann equation governing the electrical potential distribution of the system under consideration. On th

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