Intrinsic magnetic properties of plant leaf-derived graphene quantum dots

Hexagonal graphene quantum dots (GQDs) derived from plant leaves with diameters in the range of 5–7nm with zig-zag edges were synthesized and its intrinsic defects and magnetic properties were investigated. Our results showed paramagnetic behavior below 15K. The origin of paramagnetism was ascribed to the edge spin effect presented in the GQDs and largely based on the GQDs hexagonal nanoislands with zigzag edges. Our results are further consistent with the theoretical prediction. The excellent spin and magnetic properties exhibited by these GQDs could potentially lead to new and advanced nano spin-manipulation devices. •Paramagnetic behavior of plant-leaf-derived graphene quantum dots (GQDs).•Magnetic properties due to the edge effects of GQDs.•Inexpensive way of mass production of GQDs.•New results point to charge, light, spin and magnetic manipulation using GQDs.