▎ 摘　　要

NOVELTY - Carbon nanotube-graphene hybrid electrode material comprises carbon nanotube-graphene hybrid electrode are equipped with graphene electrode which is formed on material, and cluster of carbon nanotubes, after it dipped population of carbon nanotubes among hydrophilicity liquid which is opened type ends of the above-mentioned adjacent carbon nanotubes are gathered through capillary force. The lower section group in which it endows with three dimensional nanostructure, and cluster of carbon nanotubes, it is vertically grown up on graphene electrode. The inflow and open type end inclusion site flowed out are treated hydrophilically to form capillary force when luring after it dip among hydrophilicity liquid. USE - Carbon nanotube-graphene hybrid electrode material used in hydrophilic treatment, ultraviolet-ozone processing or oxygen plasma processing (claimed). ADVANTAGE - The carbon nanotube-graphene hybrid electrode material has high sensitivity sensor in which real time measurement occurs. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for follwing: (1) a method for preparing carbon nanotube-graphene hybrid electrode, which involves preparing graphene electrode formed on the material;forming catalyst layer for the carbon nanotube vertical growth on graphene electrode;forming catalyst layer onvertically grows carbon nanotubes;treating liquid hydrophlic in inflow and open type end inclusion site flowed out among carbon nanotubes growing with perpendicularity;luring open type ends of carbon nanotubes which are adjacent through capillary force after it dipped cluster of carbon nanotubes which are vertically grown up on the graphene electrode;treating hydrophilically among hydrophilicity liquid which are gathered;forming low sect group of the carbon nanotubes in which it endows with three dimentional nanostructure; (2) kit, which comprises carbon nanotube-graphene hybrid electrode, and cell is adhered on carbon nanotube-graphene hybrid electrode; and (3) a method for performing magnetic cell sorting, which involves cultivating cell on carbon nanotube-graphene hybrid electrode, analyzing electric signal generated from cultivation or specialized cell..