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arxiv: 2205.08499 · v2 · pith:TJZFQAEDnew · submitted 2022-05-17 · ❄️ cond-mat.mes-hall · physics.chem-ph

Phase-Coherent Charge Transport through a Porphyrin Nanoribbon

classification ❄️ cond-mat.mes-hall physics.chem-ph
keywords moleculardevicesgraphenetransportcoherentelectroninterferencephase
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Quantum interference in nano-electronic devices could lead to reduced-energy computing and efficient thermoelectric energy harvesting. When devices are shrunk down to the molecular level it is still unclear to what extent electron transmission is phase coherent, as molecules usually act as scattering centres, without the possibility of showing particle-wave duality. Here we show electron transmission remains phase coherent in molecular porphyrin nanoribbons, synthesized with perfectly defined geometry, connected to graphene electrodes. The device acts as a graphene Fabry-P\'erot interferometer, allowing direct probing of the transport mechanisms throughout several regimes, including the Kondo one. Electrostatic gating allows measurement of the molecular conductance in multiple molecular oxidation states, demonstrating a thousand-fold increase of the current by interference, and unravelling molecular and graphene transport pathways. These results demonstrate a platform for the use of interferometric effects in single-molecule junctions, opening up new avenues for studying quantum coherence in molecular electronic and spintronic devices.

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