We report first-principles calculations of current versus gate voltage characteristics of a molecular transistor with a phenyldithiolate molecule as active element. We show that (i) when the molecule is placed in proximity to the gate electrode, current modulation and resonant tunneling can occur at very small gate voltages. This is due to the first-order perturbation of the electronic states induced by the electrostatic potential of the gate in the molecular region. Such perturbation is present even if the molecule does not have an intrinsic dipole moment. (ii) The molecular transistor can be converted from n-type to p-type by the simple co-adsorption of a single oxygen atom placed near the molecule. While the latter finding suggests that the character of molecular transistors can be easily changed by doping the electrode surfaces, it also puts severe constraints on the experimental control of such structures for molecular electronics applications.

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12.
Note that the values of the resistance at resonant tunneling are 19.2 and 16.0 KΩ for the molecule/electrode system with and without the co-adsorbed oxygen, respectively. This indicates that the transmission probability of the transport channel is not unity at resonance.
13.
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14.
Note that the gate voltage at which resonant tunneling occurs is almost the same in the presence of the O atom even though the HOMO is only 0.1 eV from the left Fermi level, compared to almost 1 eV of energy difference between the LUMO and the left Fermi level in the case without the O atom. The difference can be ascribed to the different screening introduced by the presence of the O atom.
15.
We also tested that this effect is reduced by increasing the distance between the O atom and the S atom while keeping the O/electrode distance constant.
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