▎ 摘 要
NOVELTY - Process for aligning carbon nanotubes and reduced graphene oxide as three dimensional (3D) lamellar structure using magnetic field involves dispersing carbon nanotubes in a non solvent liquid media to form a uniform and stable carbon nanotubes colloidal mixture using sonication, applying magnetic field to the carbon nanotubes colloidal mixture in the non solvent liquid media to align in the direction of magnetic field, dispersing reduced graphene oxide in the non solvent liquid media, adding the reduced graphene oxide colloidal mixture into the carbon nanotubes colloidal mixture under the exposure of magnetic field, undergoing a bonding formation between the carbon nanotubes and the reduced graphene oxide in the non solvent liquid media in the presence of magnetic field, forming of vertically aligned carbon nanotubes attached to the reduced graphene oxide as three dimensional lamellar structure, and drying out the non solvent liquid media to obtain the finished product. USE - The process is used for aligning carbon nanotubes and reduced graphene oxide as three dimensional lamellar structure using magnetic field for effective electron transport mechanism in nanoelectronic devices. ADVANTAGE - The process is simple and cost-effective. DETAILED DESCRIPTION - Process for aligning carbon nanotubes and reduced graphene oxide as three dimensional (3D) lamellar structure using magnetic field involves dispersing carbon nanotubes in a non solvent liquid media to form a uniform and stable carbon nanotubes colloidal mixture using sonication, applying magnetic field to the carbon nanotubes colloidal mixture in the non solvent liquid media to align in the direction of magnetic field, dispersing reduced graphene oxide in the non solvent liquid media to form a stable reduced graphene oxide colloidal mixture using sonication, adding the reduced graphene oxide colloidal mixture into the carbon nanotubes colloidal mixture under the exposure of magnetic field, undergoing a bonding formation between the carbon nanotubes and the reduced graphene oxide in the non solvent liquid media in the presence of magnetic field, forming of vertically aligned carbon nanotubes attached to the reduced graphene oxide as three dimensional lamellar structure, and drying out the non solvent liquid media to obtain vertically aligned stable carbon nanotubes and reduced graphene oxide composites in a powdered form, where the magnetic lines of force are exerted in a perpendicular direction to achieve the desired orientation, and the vertically aligned carbon nanotubes were attached perpendicularly to the reduced graphene oxide.