▎ 摘　　要

NOVELTY - The structure has an electrode paste coated with multiple low-dimensional conductive carbon materials. High conductive crystal direction of each low-dimensional conductive carbon material is vertical to a plane of coating base material (20). The low-dimensional conductive carbon material is uniformly dispersed in electrode slurry. The low-dimensional conductive carbon material comprises a graphitized crystal structure unit that is formed as a carbon nano tube, a graphene micro-sheet and a graphite sheet. The high conductive crystal direction of the low-dimensional conductive carbon material is same as plane direction of the graphitized crystal structure unit. AC electrophoresis generated by a low temperature plasma generator (10). USE - High-conductive electrode structure for a lithium-ion battery e.g. lithium phosphate battery, manganese acid lithium battery and titanic acid lithium battery. ADVANTAGE - The conductivity of the high conductive electrode structure can be improved. The conductive effect of the low-dimensional conductive carbon material can be exerted, so as to exert the conductive advantage of the electrode slurry. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for a high conductive electrode structure preparation method. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic view of a high-conductive electrode structure. (Drawing includes non-English language text). 10Low temperature plasma generator 11Conductive low temperature plasma 12External alternating current electrode 20Coating base material