Paint circuits

What is claimed is: 1. A painted circuit, comprising: a substrate; and one or more paint layers applied to the substrate, the one or more paint layers each forming an electrical component of the painted circuit, wherein: a given paint layer of the one or more paint layers comprises a conductive paint formulation having a resistance that is defined by a concentration of conductive material that is included in the conductive paint formulation and a thickness of the given paint layer; and lower concentrations of the conductive material included in the conductive paint formulation provide a higher resistance than higher concentrations of conductive material; and wherein the one or more paint layers of conductive paint comprise: a battery anode paint layer applied to the substrate; an ion bridge paint layer applied to less than all of the battery anode paint layer; and a battery cathode paint layer applied to the ion bridge paint layer; a solar cell anode paint layer applied to less than all of the battery cathode paint layer; a photosensitized paint layer applied to the solar cell anode paint layer; and a solar cell cathode paint layer applied to the photosensitized paint layer. 2. The painted circuit of claim 1 , wherein the one or more paint layers of conductive paint further comprise: a diode paint circuit that is formed between the battery anode paint layer and the solar cell cathode paint layer. 3. The painted circuit of claim 2 , wherein the diode paint circuit is physically separated from each of the photosensitized paint layer, the solar cell anode paint layer, the battery cathode paint layer, and the ion bridge paint layer. 4. The painted circuit of claim 3 , wherein the diode paint circuit includes an electron conducting paint layer and a hole conducting paint layer. 5. The painted circuit of claim 1 , further comprising a transparent protective layer applied to the solar cell cathode paint layer. 6. The painted circuit of claim 4 , in which the electron conducting paint layer comprises a n-type semiconductor. 7. The painted circuit of claim 4 , in which the hole conducting paint layer comprises a p-type semiconductor. 8. The painted circuit of claim 7 , in which the p-type semiconductor comprises p-type nanoparticles. 9. The painted circuit of claim 5 , further comprising: a transistor paint layer applied to less than all of the battery cathode paint layer and in electrical contact with the solar cell anode paint layer; a light-emitting circuit that is formed between the transistor paint layer and the transparent protective layer. 10. The painted circuit of claim 9 , wherein the light-emitting circuit is physically separated from the photosensitized paint layer. 11. The painted circuit of claim 9 , wherein the light-emitting circuit includes an electron conducting paint layer, a hole conducting paint layer, and a phosphorescent paint layer between the electron conducting paint layer and the hole conducting paint layer. 12. The painted circuit of claim 9 , further comprising a conductor paint layer that is formed between the battery anode paint layer and the light-emitting circuit, wherein the conductor paint layer is physically separated from each of the ion bridge paint layer, the battery cathode paint layer, and the transistor paint layer. 13. The painted circuit of claim 9 , wherein the transistor paint layer comprises a composition including a dielectric material that has a breakdown voltage that corresponds to a switching voltage of the transistor paint layer. 14. A painted circuit, comprising: a substrate; and one or more paint layers applied to the substrate, the one or more paint layers each forming an electrical component of the painted circuit, wherein: a given paint layer of the one or more paint layers comprises a conductive paint formulation having a resistance that is defined by a concentration of conductive material that is included in the conductive paint formulation and a thickness of the given paint layer; and lower concentrations of the conductive material included in the conductive paint formulation provide a higher resistance than higher concentrations of conductive material; and wherein the one or more paint layers of conductive paint comprise: an anode paint layer applied to the substrate; a further ion bridge paint layer applied to less than all of the anode paint layer; a photosensitized/battery cathode paint layer applied to the further ion bridge paint layer; a further solar cell cathode paint layer applied to less than all of the photosensitized/battery cathode paint layer; and a transparent protective layer applied to the further solar cell cathode paint layer. 15. The painted circuit of claim 14 , wherein the anode paint layer comprises an aqueous composition including: an anionic fast ion conductor; and a salt in a weight ratio of water, wherein the salt in the weight ratio of water:salt:anionic fast ion conductor is 60:10:1. 16. The painted circuit of claim 14 , wherein the further ion bridge paint layer comprises an aqueous composition including an ionic material and an ion-conducting polymer in a weight ratio of water. 17. The painted circuit of claim 14 , further comprising two or more contacts, each contact comprising a metallic foil affixed to an anode paint layer or a photosensitized/battery cathode paint layer and in electrical contact with the anode paint layer or the photosensitized/battery cathode paint layer, respectively. 18. A painted circuit, comprising: a substrate; and one or more paint layers applied to the substrate, the one or more paint layers each forming an electrical component of the painted circuit, wherein: a given paint layer of the one or more paint layers comprises a conductive paint formulation having a resistance that is defined by a concentration of conductive material that is included in the conductive paint formulation and a thickness of the given paint layer; and lower concentrations of the conductive material included in the conductive paint formulation provide a higher resistance than higher concentrations of conductive material; and wherein the one or more paint layers of conductive paint comprise: a further solar cell anode paint layer applied to the substrate; a further photosensitized paint layer applied to less than all of the further solar cell anode paint layer; an output regulator circuit that is formed on top of the further solar cell anode paint layer, the output regulator circuit comprising a resistor paint layer and transistor paint layer, wherein: the resistor paint layer is applied to the further solar cell anode paint layer and is applied adjacent to the further photosensitized layer; and the transistor paint layer is applied to the resistor paint layer; a yet further solar cell cathode paint layer applied to the further photosensitized paint layer and the transistor paint layer; and a transparent protective paint layer applied to the yet further solar cell cathode paint layer. 19. The painted circuit of claim 18 , wherein the transistor paint layer comprises a composition including a dielectric material that has a breakdown voltage that corresponds to a switching voltage of the transistor paint layer. 20. The painted circuit of claim 18 , further comprising two or more contacts, each contact comprising a metallic foil affixed to a solar further cell anode paint layer or a yet further solar cell cathode paint layer and in electrical contact with the further solar cell a