Dry electrodes for transcutaneous nerve stimulation

What is claimed is: 1. A dry electrode for transcutaneous electrical stimulation, the dry electrode comprising: a conductive backing layer; and a skin contact layer disposed on the conductive backing layer, the skin contact layer configured to deliver electrical current from the conductive backing layer to the skin for transcutaneous electrical stimulation, the skin contact layer comprising a polymer, plastic, or rubber material, and a conductive filler material dispersed substantially evenly throughout the polymer, plastic, or rubber material, the skin contact layer comprising a thickness of between 1 mm and 10 mm, wherein the conductive filler material comprises single wall carbon nanotubes, wherein the skin contact layer comprises a skin facing surface that is not coated with a hydrogel or liquid, wherein a loading of single wall carbon nanotubes is between about 1% and about 5%, and wherein a homogeneity of the conductive filler material is such that there is less than about a 5% difference in resistivity across the skin contact layer. 2. The dry electrode of claim 1 , wherein the dry electrode has a bulk resistivity of between about 50 ohm-cm and about 1,000 ohm-cm, wherein the skin contact layer comprises silicone, wherein the dry electrode is configured to be disposed on a wearable band, and wherein the skin contact layer has a Shore A durometer of between about 30 A and about 50 A. 3. The dry electrode of claim 1 , wherein the skin contact layer comprises silicone. 4. The dry electrode of claim 1 , wherein the conductive filler material further comprises silver coated glass bubbles. 5. The dry electrode of claim 4 , wherein the loading of silver coated glass bubbles is between about 3% and about 30% of the skin contact layer. 6. The dry electrode of claim 1 , wherein the dry electrode has a bulk resistivity of between about 50 ohm-cm and about 1,000 ohm-cm. 7. The dry electrode of claim 1 , wherein the skin contact layer has a Shore A durometer of between about 30 A and about 50 A. 8. A dry electrode for transcutaneous electrical stimulation, the dry electrode comprising: a conductive backing layer; and a skin contact layer disposed on the conductive backing layer, the skin contact layer configured to deliver electrical current from the conductive backing layer to the skin for transcutaneous electrical stimulation, the skin contact layer comprising a polymer, plastic, or rubber material, and a conductive filler material dispersed throughout the polymer, plastic, or rubber material, the skin contact layer comprising a thickness of between 1 mm and 10 mm, wherein the conductive filler material comprises single wall carbon nanotubes, wherein the skin contact layer comprises a skin facing surface that is not coated with a hydrogel or liquid, wherein a loading of single wall carbon nanotubes is between about 1% and about 5%. 9. The dry electrode of claim 8 , wherein the dry electrode has a bulk resistivity of between about 50 ohm-cm and about 1,000 ohm-cm, wherein the skin contact layer has a Shore A durometer of between about 30 A and about 50 A, wherein a homogeneity of the conductive filler material is such that there is less than about a 5% difference in resistivity across the skin contact layer, wherein the loading of single wall carbon nanotubes is between about 1% and about 5%, and wherein the skin contact layer comprises silicone. 10. The dry electrode of claim 8 , wherein the skin contact layer comprises silicone. 11. A dry electrode for transcutaneous electrical stimulation, the dry electrode comprising: a conductive backing layer; and a skin contact layer disposed on the conductive backing layer, the skin contact layer configured to deliver electrical current from the conductive backing layer to the skin for transcutaneous electrical stimulation, the skin contact layer further comprising a conductive filler material dispersed substantially evenly throughout a polymer, plastic, or rubber material, the skin contact layer comprising a thickness of between 0.5 mm and 10 mm, wherein the conductive filler material comprises single wall carbon nanotubes, wherein the skin contact layer has a skin facing surface that is not coated with a hydrogel or liquid, wherein a loading of single wall carbon nanotubes is less than about 5%. 12. The dry electrode of claim 11 , wherein the skin contact layer has a Shore hardness between about 10 A to about 100 A, wherein the skin contact layer has a volume resistivity between about 1 ohm*cm and about 2000 ohm*cm, wherein a measured resistance or conductance at a plurality of points across the skin facing surface of the skin contact layer has a standard deviation of within about 50% of the average measured resistance or conductance, and wherein the skin contact layer comprises silicone. 13. The dry electrode of claim 11 , wherein the conductive backing layer comprises a metal foil. 14. The dry electrode of claim 13 , wherein the metal foil is disposed on a flexible polymer substrate. 15. The dry electrode of claim 11 , wherein the conductive filler material comprises a powder or fine particulate material. 16. The dry electrode of claim 11 , wherein the conductive backing layer comprises porous material treated with a conductive coating. 17. The dry electrode of claim 11 , wherein the skin contact layer has a Shore hardness between about 10 A to about 100 A. 18. The dry electrode of claim 11 , wherein the skin contact layer has a Shore hardness between about 25 A to about 55 A. 19. The dry electrode of claim 11 , wherein a measured resistance or conductance at a plurality of points across the skin facing surface of the skin contact layer has a standard deviation of within about 25% of the average measured resistance or conductance. 20. The dry electrode of claim 11 , wherein the loading of single wall carbon nanotubes is between about 1% and about 5%.