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arxiv: 2202.12682 · v1 · pith:QZCOTLBI · submitted 2022-02-25 · cond-mat.mes-hall · physics.chem-ph

Charge-state dependent vibrational relaxation in a single-molecule junction

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classification cond-mat.mes-hall physics.chem-ph
keywords sequentialtransportvibrationalchargedependentmolecularrelaxationtunneling
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The interplay between nuclear and electronic degrees of freedom strongly influences molecular charge transport. Herein, we report on transport through a porphyrin dimer molecule, weakly coupled to graphene electrodes, that displays sequential tunneling within the Coulomb-blockade regime. The sequential transport is initiated by current-induced phonon absorption and proceeds by rapid sequential transport via a non-equilibrium vibrational distribution. We demonstrate this is possible only when the vibrational dissipation is slow relative to sequential tunneling rates, and obtain a lower bound for the vibrational relaxation time of 8 ns, a value that is dependent on the molecular charge state.

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