Method for fabricating coiled nano carbon material, coiled nano carbon layered substrate and coiled nano carbon material thereof

摘要

A preparing method for coiled nano carbon material is provided and includes forming a noble metal catalyst crystallite nucleus layer on the surface of the substrate by displacement of a noble metal catalyst, forming a composited nano carbon material on the metal layer of the substrate by using TCVD; in which the composited nano carbon material includes coiled carbon nano tubes and coiled carbon nano fiber. The measured quantity of the total coiled nano carbon tubes and coiled nano carbon fiber in the total measured quantity of nano carbon material is greater than 30%. The coiled nano carbon material can be acquired by scraping it off from the substrate surface.

主权项

1. A method for fabricating coiled nano carbon material, comprising:
providing a substrate, and cleaning the surface of said substrate; immersing the substrate in a noble metal catalyst solution which contains a noble metal catalyst, thereby forming a noble metal catalyst crystallite nucleus layer on the surface of the substrate, wherein the noble metal catalyst is selected from the group consisting of a first catalyst group, a second catalyst group, and combinations thereof; wherein the first catalyst group is selected from an organic chelate chelated with platinum, palladium, rhodium, chrome, ruthenium, osmium, or iridium, and mixtures thereof; wherein the second catalyst group is selected from a solution of chloride, sulfate, acetate, and mixtures thereof comprising one selected from platinum, palladium, rhodium, chrome, ruthenium, osmium, iridium, and mixtures thereof; drying the substrate having the noble metal catalyst crystalline nucleus layer; disposing the substrate having the noble metal catalyst crystallite nucleus layer formed thereon in a vacuum chamber; performing a thermal chemical deposition (TCVD) process introducing an inert gas and a carbon source gas into the chamber with a initial vacuum, heating the chamber to a predetermined growth temperature, and growing a composited nano carbon material layer on the substrate with a predetermined growing time; wherein the organic chelate is “A” (copolymer of styrene monomer and N-isopropylacrylamide monomer (Poly(Styrenea-Co-NIPAAmb)), “B” (copolymer of styrene monomer and polyester oligomer), “C” (copolymer of styrene monomer and methyl methacrylate (PS-co-PMMA[poly(styrene-co-methyl methacrylate)])), “D” (ethylene vinyl acetate copolymer), “E” (copolymer of polyvinyl acetate and chitosan (poly(vinyl acetate) chitosan(CS)-graft-poly(vinyl acetate)), or combinations thereof; wherein the composited nano carbon material layer comprises the coiled nano carbon material, and the coiled nano carbon material is a mixture containing a coiled nano carbon tube and a coiled nano carbon fiber; wherein the amorphous matrix of said coiled nano carbon fiber has crystallized carbon nanoparticles; where the average measured quantity of the coiled nano carbon material in the composited nano carbon material layer is at least 30%.