▎ 摘　　要

NOVELTY - The method involves measuring luminous energy according to size of a graphene quantum dot (S12). The size and form of the graphene quantum dot are classified (S11). Light absorbency characteristic is saved according to the size of the graphene quantum dot. The size and the form of the graphene quantum dot are changed (S13). Maximum occupancy of the graphene quantum dot is determined (S14). Correlation of optical absorption and luminous energy is obtained (S15). The size of the graphene quantum dot is increased from 5nm to 35nm. USE - Method for obtaining correlation of absorption and luminescence properties of graphene quantum dots by changing size and shape of graphene quantum dots. ADVANTAGE - The method enables effectively classifying the size and the form of the graphene quantum dot by examining physical properties of the graphene quantum dot. The method enables obtaining the correlation of optical absorption and luminous energy in an effective manner. The method enables increasing applicability of an analog device and multiple digital light electric components. DESCRIPTION OF DRAWING(S) - The drawing shows a flow chart illustrating a method for obtaining correlation of absorption and luminescence properties of graphene quantum dots by changing size and shape of graphene quantum dots.'(Drawing includes non-English language text)' Step for classifying size and form of the graphene quantum dot (S11) Step for measuring luminous energy (S12) Step for changing size and form of the graphene quantum dot (S13) Step for determining maximum occupancy of the graphene quantum dot (S14) Step for obtaining correlation of optical absorption and luminous energy (S15)