Electrically conductive laminated lens for eyewear and frame assembly therefor

What is claimed is: 1. A lens for an eyewear apparatus, comprising: a first lens element comprising: a first electrically conductive layer over a first substrate; a first busbar over an edge portion of the first electrically conductive layer; and a first electrochromic layer over the first electrically conductive layer; a second lens element comprising: a second electrically conductive layer over a second substrate; a second busbar over an edge portion of the second electrically conductive layer; and a second electrochromic layer over the second electrically conductive layer; an electrolyte layer disposed between the first and second electrochromic layers; a first electrically conductive opaque functional layer substantially aligned with the first busbar and positioned between the electrolyte layer and the first electrochromic layer at an edge of the first lens element, wherein the first busbar is between the first electrically conductive opaque functional layer and the first electrically conductive layer; and a second electrically conductive opaque functional layer substantially aligned with the second busbar and positioned between the electrolyte layer and the first electrochromic layer at another edge of the first lens element. 2. The lens of claim 1 , wherein each of the first and second busbars electrically couple the first and second electrically conductive layers and the first and second electrochromic layers, respectively, to an external power supply. 3. The lens of claim 1 , wherein the first electrochromic layer is disposed over the first busbar. 4. The lens of claim 1 , wherein the first electrochromic layer is electrically insulated from the first busbar. 5. The lens of claim 1 , wherein each of the first and second electrically conductive layers is transparent to visible light and comprises indium tin oxide (ITO), fluorine doped tin oxide (FTO), doped zinc oxide, or indium gallium zinc oxide (IGZO). 6. The lens of claim 1 , wherein the electrolyte layer comprises an adhesive electrolyte layer configured to be cured when exposed to an ultraviolet (UV) radiation. 7. The lens of claim 1 , wherein, when the eyewear is worn, the first substrate is distal to a wearer and the second substrate is proximal to the wearer. 8. The lens of claim 1 , wherein the second lens element further comprises an anti-fog layer disposed on the second substrate so that the second substrate is interposed between the anti-fog layer and the first electrically conductive layer. 9. The lens of claim 8 , wherein the anti-fog layer comprises cellulose acetate propionate (CAP). 10. The lens of claim 8 , wherein each of the first and second substrates comprises polycarbonate (PC), nylon, polyurethane, polyethylene, polyethylene terephthalate (PET), polyimide, acrylic, MYLAR®, clear glass, doped glass, or filtered glass. 11. The lens of claim 1 , wherein the first and second electrically conductive layers are configured to heat the lens. 12. An eyewear assembly, comprising: the lens of claim 1 ; a sub-frame assembly covering an edge and a portion of a top surface of the lens, wherein the sub-frame assembly covering the portion of the top surface of the lens covers the first and second busbars; a bonding agent disposed between the sub-frame assembly and the lens. 13. The eyewear assembly of claim 12 , further comprising: another lens configured to be attached to the sub-frame assembly, wherein the other lens is distal to a wearer when the eyewear assembly is worn. 14. The eyewear assembly of claim 12 , wherein the bonding agent comprises epoxy glue. 15. A lens for an eyewear apparatus, comprising: a first lens element comprising: a first electrically conductive layer over a first substrate; and a first busbar substantially aligned with a first edge portion of the first electrically conductive layer; a second lens element comprising: a second electrically conductive layer over a second substrate; and a second busbar over the second electrically conductive layer and substantially aligned with a second edge portion of the first electrically conductive layer; an electrolyte layer disposed between the first and second electrically conductive layers; one or more electrically conductive opaque functional layers between the electrolyte layer and the first electrically conductive layer, wherein each of the one or more electrically conductive opaque functional layers is substantially aligned with either the first or the second busbar. 16. The lens of claim 15 , wherein the first and second busbars electrically connect, respectively, the first and second electrically conductive layers to an external power supply. 17. The lens of claim 15 , wherein the electrolyte layer comprises an adhesive electrolyte. 18. The lens of claim 15 , further comprising: an anti-fog layer disposed on an opposite side of the second substrate from the second electrically conductive layer; an electrochromic layer over the first electrically conductive layer; and another electrochromic layer over the second electrically conductive layer. 19. The lens of claim 18 , wherein the anti-fog layer comprises cellulose acetate propionate (CAP). 20. The lens of claim 15 , wherein the first and second electrically conductive layers comprise heating elements configured to heat the lens. 21. An eyewear assembly, comprising: the lens of claim 15 ; a frame assembly covering an edge and a portion of a top surface of the lens, wherein the frame assembly covering the portion of the top surface of the lens covers the first and second busbars out of a wearer's view; and a bonding agent disposed between the frame assembly and the lens, wherein the bonding agent comprises epoxy glue. 22. The lens of claim 1 , wherein the first electrochromic layer comprises first and second top surfaces non-coplanar with each other. 23. The lens of claim 1 , wherein the second busbar is electrically isolated from the first electrochromic layer. 24. A lens for an eyewear apparatus, comprising: first and second substrates; first and second electrically conductive layers over the first and second substrates, respectively; a first busbar over a first edge portion of the first electrically conductive layer; a second busbar over the second electrically conductive layer and over a second edge portion of the first electrically conductive layer; an electrochromic element, configured to provide an electrochromic function, between the first and second busbars; a first electrically conductive opaque functional layer substantially aligned with the first busbar and embedded in the electrochromic element, wherein the first busbar is between the first electrically conductive opaque functional layer and the first edge portion of the first electrically conductive layer; and a second electrically conductive opaque functional layer substantially aligned with the second busbar and embedded in the electrochromic element, wherein the second electrically conductive opaque functional layer is between the second busbar and the second edge portion of the first electrically conductive layer. 25. The lens of claim 24 , wherein the electrochromic element comprises first and second electrochromic layers proximate to the first and second substrates, respectively. 26. The lens of claim 24 , wherein the electrochromic element comprises an electrolyte layer with a nonplana