Local field emission of electrons from an individual boron nanowire at nanometer electrode separation

Abstract

The field electron emission properties of an individual β-rhombohedral boron nanowire (β-r BNW) with electrode separation at nanoscale have been studied by ultrahigh vacuum four-probe scanning tunneling microscope (STM) system. A reproducible and stable emission current can be obtained. The maximal emission current density of individual boron nanowire is about 5×104A/cm2 at a low bias voltage (80V). An obvious deviation from the Fowler–Nordheim (FN) theory appears, when the electrode separation reduced below 120nm. This deviation is tentatively assumed to due to the invalidation of free electron cloud approximation in FN theory.