Starting with the physics of tunneling transport through a molecule, we describe the principles underlying electrical amplification effects of a C(60) molecule. We discuss in detail the consequences of intramolecular electronic-level repulsion, an effect induced by compression of the molecule, which leads to an exponential variation of the current for a minute compression of the molecule. This detailed understanding underpins the C(60) amplifier. Using a planar configuration and an independent electromechanical grid, a transistor effect results from this repulsion effect.
By: C. Joachim, J. K. Gimzewski and H. Tang
Published in: Physical Review. B. Condensed Matter, volume 58, (no 24), pages 16407-17 in 1998
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