- flexible actuator manufacturing method with carbon nanotube-graphene tube material applied

摘要

The present invention relates to a method of manufacturing a research reactor in which a carbon nanotube-graphene tube material is applied, the first step of synthesizing a metal catalyst in the form of a nanowire and preparing it in powder form; Step 2 of growing graphene on the surface of metal nanowires through chemical vapor deposition, and further growing carbon nanotubes (CNTs) through chemical vapor deposition by spraying metal catalyst particles on the surface. ; Removing the metal nanowires, the carbon nanotube (CNT, Carbon nanotube)-graphene (graphene) tube (tube) 3 steps are produced; Carbon nanotube (CNT, Carbon nanotube)-Graphene tube (tube) is added to the ionic polymer solution to perform a casting process, and through this process, carbon nanotube (CNT, Carbon nanotube)- A fourth step in which a film of a graphene tube and an ionic polymer are prepared; The carbon nanotube (CNT, Carbon nanotube)-graphene (graphene) tube and carbon nanotubes (CNT, Carbon nanotube)-graphene (graphene) on both sides of the film (film) mixed with an ionic polymer It consists of 5 steps of attaching a tube electrode to finally produce a carbon nanotube (CNT)-graphene tube material to which an electroactive polymer research reactor is added. The present invention is inexpensive, flexible, has no defects on the surface, has an electrode oxidation prevention and structurally high current density, and is intended to provide effective driving characteristics as an electrode of a driver by providing excellent electron transfer characteristics. Accordingly, there is a remarkable effect showing faster response characteristics and driving force characteristics at the same voltage and frequency.