Composite nanofiber sheet

What is claimed is: 1. A composite nanofiber sheet comprising: a nanofiber sheet having a first major surface and a second major surface opposite the first major surface, the nanofiber sheet comprising a plurality of aligned nanofibers that define a plurality of spaces between the aligned nanofibers of the plurality; a first conformal metal layer conformally disposed on outer surfaces of a first portion of the plurality of aligned nanofibers proximate to the first major surface of the nanofiber sheet, the first conformal metal layer comprising a conductive path in the nanofiber sheet; and a polymer layer disposed in a plurality of spaces defined by a second portion of the plurality of aligned nanofibers, the polymer layer proximate to the second major surface of the nanofiber sheet, wherein at least some polymer of the polymer layer penetrates into the first conformal metal layer, wherein the nanofiber sheet is buckled to have a wavy pattern, wherein the polymer layer includes a densifying agent that densifies the nanofiber sheet without a separate solvent, wherein the polymer layer is an adhesive layer having a wavy structure, and wherein the adhesive layer is also disposed proximate to at least a portion of the first major surface of the nanofiber sheet, the composite nanofiber sheet thus forming a conductive double-sided pressure sensitive adhesive nanofiber tape. 2. The composite nanofiber sheet of claim 1 , wherein a thickness of the composite nanofiber sheet is less than 30 μm. 3. The composite nanofiber sheet of claim 1 , further comprising a solder contact connected to the first major surface via the first conformal metal layer. 4. The composite nanofiber sheet of claim 1 , wherein the first conformal metal layer is a carbide-forming metal layer. 5. The composite nanofiber sheet of claim 4 , wherein the carbide-forming metal is titanium. 6. The composite nanofiber sheet of claim 1 , wherein the first conformal metal layer is from 5 nm to 30 nm thick. 7. The composite nanofiber sheet of claim 1 , further comprising a second conformal metal layer deposited on the first conformal metal layer. 8. The composite nanofiber sheet of claim 7 , wherein the second conformal metal layer is a silver layer from 10 nm to 500 nm thick. 9. The composite nanofiber sheet of claim 1 , further comprising an insulating film disposed on one or both of the first major surface and the second major surface of the nanofiber sheet. 10. The composite nanofiber sheet of claim 1 , further comprising at least a second nanofiber sheet stacked with an angular variation in a second direction of nanofiber alignment of at least 1° from a first direction of nanofiber alignment in the nanofiber sheet. 11. A composite nanofiber sheet comprising: a nanofiber sheet having a first major surface and a second major surface opposite the first major surface, the nanofiber sheet comprising a plurality of aligned nanofibers that define a plurality of spaces between the aligned nanofibers of the plurality; a first conformal metal layer conformally disposed on outer surfaces of a first portion of the plurality of aligned nanofibers proximate to the first major surface of the nanofiber sheet, the first conformal metal layer comprising a conductive path in the nanofiber sheet; a polymer layer disposed in a plurality of spaces defined by a second portion of the plurality of aligned nanofibers, the polymer layer proximate to the second major surface of the nanofiber sheet; and an elastic substrate on which the nanofiber sheet, the first conformal metal layer, and the polymer layer are disposed, wherein the elastic substrate, the nanofiber sheet, the first conformal metal layer, and the polymer layer collectively have a first length in a contracted state and a second length between five to seven times the first length in an extended state. 12. The composite nanofiber sheet of claim 11 , wherein a sheet resistance of the composite nanofiber sheet in the contracted state is approximately the same as a sheet resistance in the extended state. 13. The composite nanofiber sheet of claim 11 , wherein the nanofiber sheet comprises at least a portion of buckled nanofibers and is configured for repeated elastic extensions between the first length and the second length resulting from unbuckling and re-buckling the portion of nanofibers. 14. A composite nanofiber sheet comprising: a nanofiber sheet having a first major surface and a second major surface opposite the first major surface, the nanofiber sheet comprising a plurality of aligned nanofibers that define a plurality of spaces between the aligned nanofibers of the plurality; a first conformal metal layer conformally disposed on outer surfaces of a first portion of the plurality of aligned nanofibers proximate to the first major surface of the nanofiber sheet, the first conformal metal layer comprising a conductive path in the nanofiber sheet; and a polymer layer disposed in a plurality of spaces defined by a second portion of the plurality of aligned nanofibers, the polymer layer proximate to the second major surface of the nanofiber sheet, wherein at least some polymer of the polymer layer penetrates into the first conformal metal layer, wherein the nanofiber sheet is buckled to have a wavy pattern, wherein the polymer layer includes a densifying agent that densifies the nanofiber sheet without a separate solvent, wherein the polymer layer has a wavy structure, and wherein the nanofiber sheet comprises at least a portion of buckled nanofibers. 15. The composite nanofiber sheet of claim 14 , further comprising a second conformal metal layer conformally disposed over the first conformal metal layer. 16. The composite nanofiber sheet of claim 15 , wherein a resistance of the composite nanofiber sheet is less than 10 ohms/square.