Vanadium complexes are promismg anti-diabetic agents.The key issue of rational drug design of anti-diabetic vanadium complexes will still be how to balance the potential toxicity aud pharmacological activities.[1] Previously,we have successfully obtained vanadium complexes with reduced toxicity by incorporation of antioxidant ligands.[2] Herein,based on graphene quantum dot(GQD)platform,we designed and synthesized novel GQD-VOL vanadium complexes,in which vanadyl complexes were loaded on GQDs.The structures and properties of GQD-VOL have been characterized.The results indicated that vanadium complexes were assembled on GQDs by non-covalent interaction.The apparent permeability coefficient of GQD-VOL on Madin Darby Canine Kidney cell monolayer was significantly increased.In type Ⅱ diabetic mice model,GQD-VOL exhibited more stable hypoglycemic effects.In the fasting state,GQD-VOL-treated mice gradually decreased their blood ghlcose into the normal range.Overall.the experimental results indicated that GQD-VOL can be a potent anti-diabetic agent for further drug development.