Giant magnetoresistance in bilayer graphene nanoflakes

•Application of a magnetic field only on bilayer graphene structure as a channel produces a perfect spin polarization in a large energy region.•The junction, entirely made of carbon, produces a giant magnetoresistance (GMR) up to 100%.•GMR and spin polarization could be tuned by varying BLG width and length.•Generally, MR in a AB-stacked BLG strongly increases (decreases) with length (width).•GMR of about 80% was predicted at 100 K in the large bias region.

Coherent spin transport through bilayer graphene (BLG) nanoflakes sandwiched between two electrodes made of single-layer zigzag graphene nanoribbon was investigated by means of Landauer-Buttiker formalism. Application of a magnetic field only on BLG structure as a channel produces a perfect spin polarization in a large energy region. Moreover, the conductance could be strongly modulated by magnetization of the zigzag edge of AB-stacked BLG, and the junction, entirely made of carbon, produces a giant magnetoresistance (GMR) up to 100%. Intestinally, GMR and spin polarization could be tuned by varying BLG width and length. Generally, MR in a AB-stacked BLG strongly increases (decreases) with length (width).