Mixed ionic electronic conductors for improved charge transport in electrotherapeutic devices

What is claimed: 1. An electrode, comprising: coalesced elastomer particles, carbon nanotubes (CNTs), and a glycosaminoglycan; wherein the coalesced elastomer particles comprise exteriors; wherein the CNTs and the glycosaminoglycan are dispersed in a matrix of the coalesced elastomer particles; and wherein the CNTs and the glycosaminoglycan are disposed on the exteriors of the coalesced elastomer particles; wherein the electrode has a thickness and two major surfaces; and wherein at least 30 wt % of the CNTs are disposed on a major surface or within 10% of the thickness near the major surface. 2. The electrode of claim 1 , comprising 0.4 to 4 wt % glycosaminoglycan. 3. The electrode of claim 1 , comprising 10 to 60 wt % water. 4. The electrode of claim 1 , comprising a mass ratio of the glycosaminoglycan to the CNT in a range of 0.5 to 5. 5. An apparatus for treating a patient comprising an array of the electrodes of claim 1 . 6. An electrode, comprising: coalesced polymeric particles, electrical conductor, and ionic conductor; wherein the electrical conductor and the ionic conductor are dispersed in a matrix of the coalesced polymeric particles; wherein the coalesced polymeric particles comprise exteriors; wherein the electrical conductor and the ionic conductor are disposed on the exteriors of the coalesced polymeric particles; wherein the electrode comprises a top and bottom surface and the bottom surface is adapted to contact skin of a patient, wherein the electrode has a graded structure with an increasing ratio of the ionic conductor to the electrical conductor from the top to the bottom of the electrode. 7. The electrode of claim 6 , wherein the polymeric particles are elastomeric; and wherein the electrode is made in a process wherein the electrical and ionic conductors are added to a dispersed phase of the coalesced polymeric particles. 8. The electrode of claim 6 , wherein the graded structure is prepared by layer-by-layer fabrication of the electrode, with increasing levels of ionic conductor in successive layers; having at least 3 layers. 9. The electrode of claim 6 , wherein the electrical conductor comprises particles having a height and a smallest width and wherein the particles have a number average aspect ratio of height to the smallest width dimension of at least 10. 10. The electrode of claim 6 , wherein the electrical conductor comprises carbon nanotubes, graphene, graphite structures, and metal nanowires, and combinations thereof. 11. The electrode of claim 6 , wherein the ionic conductor comprises hyaluronic acid, fluorosulfonic acids, sulfated polysaccharides and other mucoadhesive type compounds, or other phosphonic polyvinylsulfonic acids, and combinations thereof. 12. The electrode of claim 6 , wherein the electrical conductor comprises carbon nanotubes (CNTs); wherein the electrode has a thickness and wherein at least 30 wt % of the CNTs are disposed on the bottom surface or within the 10% of the thickness near the bottom surface. 13. An electrode, comprising: coalesced polymeric particles comprising ionically conductive moieties that are bonded to the coalesced polymeric particles, and electrical conductor; wherein the coalesced polymeric particles comprise exteriors; wherein the electrical conductor and ionically conductive moieties are disposed on the exteriors of the coalesced polymeric particles; wherein the electrode has a thickness and two major surfaces; and wherein at least 30 wt % of the CNTs are disposed on a major surface or within 10% of the thickness near the major surface. 14. The electrode of claim 13 , wherein the ionically conductive moieties are covalently bonded to the coalesced polymeric particles. 15. The electrode of claim 13 , wherein the coalesced polymeric particles comprise styrene-butadiene elastomer, nitrile elastomers, polyurethane elastomers, silicone elastomers, poly aryl ether elastomers, polyphasphazene elastomers, acrylate elastomers, poly vinyl ether elastomers, perfluorinated polymeric elastomers, and combinations thereof.