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Demonstration of Complementary Ternary Graphene Field-Effect Transistors.


ABSTRACT: Strong demand for power reduction in state-of-the-art semiconductor devices calls for novel devices and architectures. Since ternary logic architecture can perform the same function as binary logic architecture with a much lower device density and higher information density, a switch device suitable for the ternary logic has been pursued for several decades. However, a single device that satisfies all the requirements for ternary logic architecture has not been demonstrated. We demonstrated a ternary graphene field-effect transistor (TGFET), showing three discrete current states in one device. The ternary function was achieved by introducing a metal strip to the middle of graphene channel, which created an N-P-N or P-N-P doping pattern depending on the work function of the metal. In addition, a standard ternary inverter working at room temperature has been achieved by modulating the work function of the metal in a graphene channel. The feasibility of a ternary inverter indicates that a general ternary logic architecture can be realized using complementary TGFETs. This breakthrough will provide a key stepping-stone for an extreme-low-power computing technology.

SUBMITTER: Kim YJ 

PROVIDER: S-EPMC5172371 | biostudies-literature | 2016 Dec

REPOSITORIES: biostudies-literature

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Demonstration of Complementary Ternary Graphene Field-Effect Transistors.

Kim Yun Ji YJ   Kim So-Young SY   Noh Jinwoo J   Shim Chang Hoo CH   Jung Ukjin U   Lee Sang Kyung SK   Chang Kyoung Eun KE   Cho Chunhum C   Lee Byoung Hun BH  

Scientific reports 20161219


Strong demand for power reduction in state-of-the-art semiconductor devices calls for novel devices and architectures. Since ternary logic architecture can perform the same function as binary logic architecture with a much lower device density and higher information density, a switch device suitable for the ternary logic has been pursued for several decades. However, a single device that satisfies all the requirements for ternary logic architecture has not been demonstrated. We demonstrated a te  ...[more]

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