▎ 摘　　要

NOVELTY - Rapid conversion of precursor molecules into graphene nanoribbons, involves heat-treating carbon nanotubes in an oxygen-containing atmosphere to obtain carbon nanotubes with open ports, encapsulating the carbon nanotubes with open ports, and precursor organic molecules which is self-assembled into graphene nanoribbons for filling in a sealed container with a vacuum degree of less than 0.1 Pa, heat-treating encapsulated carbon nanotubes and precursor organic molecules at high temperature, such that the precursor organic molecules are transferred to the carbon nanotubes by sublimation, and the carbon nanotube sample filled with molecule is obtained, and performing microwave heat-treatment on the carbon nanotube sample filled with molecules in the vacuum, such that the precursor organic molecules filled in the carbon nanotubes are converted into graphene nanoribbons. USE - Rapid conversion of precursor molecules into graphene nanoribbons. ADVANTAGE - The method is capable of rapidly and economically converting the precursor molecule into the graphene with high conversion rate and energy saving and reduced energy consumption and without damaging the carbon nano-tube template, and provides technical support for the graphene batch preparation the nanometer belt. DESCRIPTION OF DRAWING(S) - The drawing shows a flow chart illustrating rapid conversion of precursor molecules into graphene nanoribbons using microwave. (Drawing includes non-English language text)