Isotachophoresis system having larger-diameter channels flowing into channels with reduced diameter and with selectable counter-flow

The invention claimed is: 1. An isotachophoresis apparatus consisting of: an isotachophoresis housing consisting of an isotachophoresis flow channel having a large diameter section, said large diameter section providing a leading section with an entrance; and a small diameter section, said small diameter section providing a trailing section with an exit; a mixed sample in said isotachophoresis flow channel, said mixed sample including first particles and second particles; a negative electrode operably connected to said isotachophoresis housing, said negative electrode located at said entrance to said large diameter section; a positive electrode operably connected to said isotachophoresis housing, said positive electrode located at said exit of said small diameter section; a power source connected to said negative electrode and said positive electrode for applying said electric potential across said negative electrode and said positive electrode; a leading carrier fluid in said isotachophoresis flow channel in said isotachophoresis housing; a trailing carrier fluid in said flow isotachophoresis channel in said isotachophoresis housing; an electric potential applied across said negative electrode and said positive electrode; and a pump for moving said mixed sample including first particles and second particles, said leading carrier fluid, and said trailing carrier fluid in said isotachophoresis flow channel; thereby separating said first particles in said mixed sample into first discrete packets using said leading carrier fluid, said trailing carrier fluid, said large diameter section channel in said isotachophoresis housing, and said small diameter section channel in said isotachophoresis housing; and separating said second particles in said mixed sample into second discrete packets using said leading carrier fluid, said trailing carrier fluid, said large diameter section, and said small diameter section in said isotachophoresis housing. 2. An isotachophoresis method consisting of the steps of: providing an isotachophoresis housing; providing an isotachophoresis flow channel in said housing; providing a large diameter section in said flow channel in said housing, said large diameter section providing a leading section with an entrance; providing a small diameter section in said flow channel in said housing, said small diameter section providing a trailing section with an exit; providing a mixed sample in said isotachophoresis flow channel, said mixed sample including first particles and second particles; providing a negative electrode operably connected to said housing, said negative electrode located at said entrance to said large diameter section; providing a positive electrode operably connected to said housing, said positive electrode located at said exit of said small diameter section; providing a leading carrier fluid in said isotachophoresis flow channel in said isotachophoresis housing; providing a trailing carrier fluid in said isotachophoresis flow channel in said isotachophoresis housing; providing an electric potential applied across said negative electrode and said positive electrode; providing a pump for moving said mixed sample including first particles and second particles, said leading carrier fluid, and said trailing carrier fluid in said isotachophoresis flow channel; using said electrical potential and said pump for separating said first particles in said mixed sample into first discrete packets using said leading carrier fluid, said trailing carrier fluid, said large diameter section, said small diameter section, said negative electrode, and said positive electrode; and using said electrical potential and said pump for separating said second particles in said mixed sample into second discrete packets using said leading carrier fluid, said trailing carrier fluid, said large diameter section, said small diameter section, said negative electrode, and said positive electrode.