Title :
Synthesis of flexible graphene transparent conductive films by using plasma technique
Author :
Hasegawa, Masataka ; Kato, Ryuichi ; Okigawa, Yuki ; Minami, Satoshi ; Ishihara, Masatou ; Yamada, Takatoshi
Author_Institution :
AIST Nanomater. Res. Inst., Tsukuba, Japan
Abstract :
In this paper we review the development of synthesis technique of highly-electrically conductive graphene by plasma assisted chemical vapor deposition (CVD). Graphene with high electrical conductivity has been synthesized by using hydrogen plasma treatment of copper foils for 30 seconds at the temperature of 850 °C together with joule-heating treatment of the foils without using a carbon-containing gas such as methane in order to suppress the nucleation density of graphene. The electrical conductivity has been significantly improved by this method. The sheet resistance of bilayer graphene exhibits 951 Ω in average. The carrier mobility shows 1000 cm2/Vs in maximum at room temperature. The sheet resistance of 130±26 Ω has been attained after the doping by gold chloride solution. We have demonstrated flexible heater by using graphene transparent conductive films.
Keywords :
carrier mobility; doping; electrical conductivity; gold compounds; graphene; heat treatment; nucleation; plasma CVD; thin films; transparency; C:AuCl; CVD; Joule heating treatment; bilayer graphene; carrier mobility; copper foils; doping; flexible graphene transparent conductive films; flexible heater; gold chloride solution; high electrical conductivity; hydrogen plasma treatment; methane; nucleation density; plasma assisted chemical vapor deposition; sheet resistance; temperature 293 K to 298 K; temperature 850 degC; time 30 s; Carbon; Copper; Films; Graphene; Hydrogen; Plasma temperature;
Conference_Titel :
Active-Matrix Flatpanel Displays and Devices (AM-FPD), 2015 22nd International Workshop on
Conference_Location :
Kyoto
DOI :
10.1109/AM-FPD.2015.7173194
