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DOI: 10.4121/adf1e1a8-9474-4630-a9ca-682a8359449c

Bras, Tristan; Hsu, Chunwei; Baum, Thomas; David Vogel; Marcel Mayor et. al. (2025): Data underlying the publication: Mechanically Stable Kondo Resonance in an Organic Radical Molecular Junction. Version 1. 4TU.ResearchData. dataset. https://doi.org/10.4121/adf1e1a8-9474-4630-a9ca-682a8359449c.v1

Categories

• Quantum Physics
• Physical Sciences

Keywords

Kondo MCBJ Mechanically Controlled Break Junctions Quantum interference Single-molecule

Licence

CC BY 4.0

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by Tristan Bras , Chunwei Hsu , Thomas Baum, David Vogel, Marcel Mayor, Herre van der Zant

Data and scripts used in the publication: Mechanically Stable Kondo Resonance in Organic Molecular Junctions. An MCBJ setup was used to measure two organic radical molecules with different substitutions of the central benzene ring of the molecular backbone at both room- and low-temperature. The goal was to investigate the impact of quantum interference in the backbone on spin-related phenomena. At room-temperature, large sets of breaking traces were collected at a constant bias voltage and histograms were constructed. At low-temperature, current-voltage characteristics were recorded while increasing the electrode separation. We find that the configuration of the molecular backbone affects the coupling of the radical to the electrode.

History

• 2025-02-04 first online, published, posted

Publisher

4TU.ResearchData

Format

MATLAB/.m, script/.py, image/.png, data/.dat, MATLAB/.fig,

Associated peer-reviewed publication

Mechanically Stable Kondo Resonance in an Organic Radical Molecular Junction

Funding

• Quantum Interference Enhanced Thermoelectricity (grant code 767187) [more info...] European Commission
• SPin Research IN Graphene (grant code 863098) [more info...] European Commission
• NWO (grant code 680.92.18.01) NWO

Organizations

Kavli Institute of Nanoscience, Delft University of Technology