Establishment of a reliable transfer process for fabricating chemical vapor deposition-grown graphene films with advanced and repeatable electrical properties

Abstract: Graphene films grown by the chemical vapor deposition (CVD) method have attracted intensive attention due to their native advantages of both high quality and large quantity for commercial applications. However, previously reported graphene films have exhibited uncertain and conflicted electrical properties that greatly hinder them from being used to build reliable electrical devices because of incompatibility during the complex and multifarious transfer process. Herein, the relationship between the transfer pa… Show more

“…Other factors can also contribute to resistance measurement variations, including the ion concentration and contaminants from the etching solution (FeCl 3 ), copper/polymer residuals, and substrate/polymer doping effects. The electrical conductivity of graphene is affected by carrier mobility and density . Cracking of graphene films during the transfer process can cause a significant decrease in carrier mobility and a related increase in sheet resistance; in contrast, a higher ion concentration enhances carrier density and decreases sheet resistance.…”

“…The electrical conductivity of graphene is affected by carrier mobility and density. 60 Cracking of graphene films during the transfer process can cause a significant decrease in carrier mobility and a related increase in sheet resistance; in contrast, a higher ion concentration enhances carrier density and decreases sheet resistance. Additionally, electrical properties can be improved by doping methods in which the carrier density increases without a decrease in carrier mobility.…”

High-Quality AB Bilayer Graphene Films by Direct Solar-Thermal Chemical Vapor Deposition

“…Other factors can also contribute to resistance measurement variations, including the ion concentration and contaminants from the etching solution (FeCl 3 ), copper/polymer residuals, and substrate/polymer doping effects. The electrical conductivity of graphene is affected by carrier mobility and density . Cracking of graphene films during the transfer process can cause a significant decrease in carrier mobility and a related increase in sheet resistance; in contrast, a higher ion concentration enhances carrier density and decreases sheet resistance.…”

“…The electrical conductivity of graphene is affected by carrier mobility and density. 60 Cracking of graphene films during the transfer process can cause a significant decrease in carrier mobility and a related increase in sheet resistance; in contrast, a higher ion concentration enhances carrier density and decreases sheet resistance. Additionally, electrical properties can be improved by doping methods in which the carrier density increases without a decrease in carrier mobility.…”

High-Quality AB Bilayer Graphene Films by Direct Solar-Thermal Chemical Vapor Deposition

Enhanced performance of graphene transparent conductive films by introducing SiO₂ bilayer antireflection nanostructure