Room-temperature all-semiconducting sub-10-nm graphene nanoribbon field-effect transistors |
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| Authors: | Wang Xinran Ouyang Yijian Li Xiaolin Wang Hailiang Guo Jing Dai Hongjie |
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| Institution: | Department of Chemistry and Laboratory for Advanced Materials, Stanford University, Stanford, California 94305, USA. |
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| Abstract: | Sub-10 nm wide graphene nanoribbon field-effect transistors (GNRFETs) are studied systematically. All sub-10 nm GNRs afforded semiconducting FETs without exception, with Ion/Ioff ratio up to 10(6) and on-state current density as high as approximately 2000 microA/microm. We estimated carrier mobility approximately 200 cm2/V s and scattering mean free path approximately 10 nm in sub-10 nm GNRs. Scattering mechanisms by edges, acoustic phonon, and defects are discussed. The sub-10 nm GNRFETs are comparable to small diameter (d< or = approximately 1.2 nm) carbon nanotube FETs with Pd contacts in on-state current density and Ion/Ioff ratio, but have the advantage of producing all-semiconducting devices. |
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