Schematics and Atomistic Simulations of Nanomemory Element Based on Carbon Tube-to-Peapod Transition

概要

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We suggested and investigated a nonvolatile nanomemory element based on carbon nanopeapods using molecular dynamics simulations. The suggested system was composed of two carbon nanotubes and fully ionized endo-fullerenes. The two carbon nanotubes were placed face to face and the endo-fullerenes came and went between the two carbon nanotubes under alternatively applied force fields. Since the electronic properties of carbon nanotubes are changed by the endo-fullerene intercalation, the bit classifications can be achieved from the detection of these changes by the endo-fullerenes intercalation under the applied force fields. Since the endo-fullerenes encapsulated in the carbon nanotubes hardly escape from the carbon nanotubes, the proposed system can be considered to be a nonvolatile memory device. Several switching processes were investigated for external force fields and temperatures using molecular dynamics simulations.
Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
2004-07-15