Radio-frequency transistors from millimeter-scale graphene domains

【摘要】 Graphene is a new promising candidate for application in radio-frequency(RF) electronics due to its excellent electronic properties such as ultrahigh carrier mobility, large threshold current density, and high saturation velocity. Recently,much progress has been made in the graphene-based RF field-effect transistors(RF-FETs). Here we present for the first time the high-performance top-gated RF transistors using millimeter-scale single graphene domain on a SiO2/Si substrate through a conventional microfabrication process. A maximum cut-off frequency of 178 GHz and a peak maximum oscillation frequency of 35 GHz are achieved in the graphene-domain-based FET with a gate length of 50 nm and 150 nm,respectively. This work shows that the millimeter-scale single graphene domain has great potential applications in RF devices and circuits.更多还原

【Abstract】 Graphene is a new promising candidate for application in radio-frequency(RF) electronics due to its excellent electronic properties such as ultrahigh carrier mobility, large threshold current density, and high saturation velocity. Recently,much progress has been made in the graphene-based RF field-effect transistors(RF-FETs). Here we present for the first time the high-performance top-gated RF transistors using millimeter-scale single graphene domain on a SiO2/Si substrate through a conventional microfabrication process. A maximum cut-off frequency of 178 GHz and a peak maximum oscillation frequency of 35 GHz are achieved in the graphene-domain-based FET with a gate length of 50 nm and 150 nm,respectively. This work shows that the millimeter-scale single graphene domain has great potential applications in RF devices and circuits.更多还原