Liquid-free, polymeric reinforcement of nanoscale assemblies

The invention claimed is: 1. A nanoscale material assembly comprising: at least one nanoscale substrate comprising a plurality of carbon nanotubes having a plurality of inter-nanotube entanglement points, the plurality of carbon nanotubes arranged as yarns or free-standing sheets with at least one crosslinked polymer deposited on the nanoscale substrate, wherein said crosslinked polymer is obtained by crosslinking a thermally self-crosslinkable polymer comprising poly-glycidyl methacrylate (PGMA) after vapor-phase deposition thereof on the nanoscale substrate at a temperature greater than 100 degrees Celsius, the PGMA having an amount equivalent to a thin film of less than 200 nm on a flat substrate and forming at least a threshold amount of mechanical reinforcing of the plurality of inter-nanotube entanglement points such that the at least one nanoscale substrate has a Young's modulus of elasticity of at least 20 GPa. 2. The nanoscale material assembly of claim 1 , wherein the thermally self-crosslinkable polymer is deposited by in situ production thereof on the structures through initiated chemical vapor deposition. 3. The nanoscale material assembly of claim 1 , wherein a thermalizing source for crosslinking the thermally self-crosslinkable polymer is a furnace or ultraviolet light. 4. The nanoscale material assembly of claim 1 , wherein the assembly comprises a metal mesh or another material that can be placed into a reactor and is stable at initiated chemical vapor deposition conditions used to deposit the polymer. 5. The nanoscale material assembly of claim 1 , wherein the thermally self-crosslinkable polymer is poly-glycidyl methacrylate. 6. The nanoscale material assembly of claim 1 , wherein the thermally self-crosslinkable polymer is any one or a combination of acrylates or methacrylate based polymers capable of being coated onto a nanoscale structure via initiated chemical vapor deposition. 7. The nanoscale material assembly of claim 1 , wherein the deposition conditions are between 100° to 350° C. for the filament, 10° and 40° Celsius for the assembly and between 0.001 torr and 100 torr for the reactor.