A bilayer graphene nanoribbon field-effect transistor with a dual-material gate

This paper introduces dual-material gate (DMG) configuration on a bilayer graphene nanoribbon field-effect transistor (BLGNRFET). Its device characteristics based on nonequilibrium Green׳s function (NEGF) are explored and compared with a conventional single-material gate BLGNRFET. Results reveal that an on-off ratio of up to 10 is achievable as a consequence of both higher saturation and lower leakage currents. The advantages of our proposed DMG structure mainly lie in higher carrier transport efficiency by means of enhancing initial acceleration of incoming carriers in the channel region and the suppression of short channel effects. Drain-induced barrier lowering, subthreshold swing and hot electron effect as the key short channel parameters have been improved in the DMG-based BLGNRFET.