Title :
Beyond the Electrostatic Gate in a Single-Molecule Transistor
Author :
Lang, Norton D. ; Solomon, Paul M.
Author_Institution :
, IBM T. J. Watson Research Center, Yorktown Heights, NY, USA
Abstract :
Transistor amplification properties of a three-leg spirofluorene-based molecule are investigated, and the transistor is shown to possess usable current, voltage, and power gain. Current gain is facilitated since the source-drain legs are conjugated, whereas the gate (control) leg is unconjugated and spatially orthogonal, and voltage gain is enhanced by the efficient quantum-mechanical coupling to the gate. Full quantum-mechanical calculations were done for all three electrodes, using the density functional formalism and a plane-wave decomposition of the wave functions.
Keywords :
Electric potential; Electrodes; Logic gates; Quantum mechanics; Slabs; Transistors; Wave functions; Density functional; Lippmann-Schwinger; Lippmann???Schwinger; Molecular transistor; density functional; molecular transistor; spirofluorene; three-leg;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2015.2457876
