Electronic transport signatures of two-electron interactions in all-organic single-molecule junctions

T.Y. Baum

doi:10.4233/uuid:dd6db953-9fc5-4be8-99f7-28b2b9e3abd1

Electronic transport signatures of two-electron interactions in all-organic single-molecule junctions

T.Y. Baum

QN/van der Zant Lab

Research output: Thesis › Dissertation (TU Delft)

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Abstract

In this thesis, we use methods offered by state of the art nanofabrication and single-molecule measurement techniques to capture polycyclic aromatic hydrocarbon (PAH) all-organic, di-radical molecules in solid-state devices, and study their electronic transport properties in different conditions with a focus on their magnetic properties.

Original language	English
Qualification	Doctor of Philosophy
Awarding Institution	Delft University of Technology
Supervisors/Advisors	van der Zant, H.S.J., Promotor Thijssen, J.M., Promotor
Award date	11 Jul 2024
Print ISBNs	978-94-6366-890-3
DOIs	https://doi.org/10.4233/uuid:dd6db953-9fc5-4be8-99f7-28b2b9e3abd1
Publication status	Published - 2024

Keywords

Molecular Electronics
Molecular magnetism
Quantum transport
all-organic radicals
poly-cyclic aromatic hydrocarbons
two- and three- terminal measurements

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10.4233/uuid:dd6db953-9fc5-4be8-99f7-28b2b9e3abd1

PhD_Dissertation_Baum_07_24Final published version, 73.3 MB

Cite this

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title = "Electronic transport signatures of two-electron interactions in all-organic single-molecule junctions",

abstract = "In this thesis, we use methods offered by state of the art nanofabrication and single-molecule measurement techniques to capture polycyclic aromatic hydrocarbon (PAH) all-organic, di-radical molecules in solid-state devices, and study their electronic transport properties in different conditions with a focus on their magnetic properties.",

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AB - In this thesis, we use methods offered by state of the art nanofabrication and single-molecule measurement techniques to capture polycyclic aromatic hydrocarbon (PAH) all-organic, di-radical molecules in solid-state devices, and study their electronic transport properties in different conditions with a focus on their magnetic properties.

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KW - Molecular magnetism

KW - Quantum transport

KW - all-organic radicals

KW - poly-cyclic aromatic hydrocarbons

KW - two- and three- terminal measurements

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M3 - Dissertation (TU Delft)

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Electronic transport signatures of two-electron interactions in all-organic single-molecule junctions

Abstract

Keywords

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Magnetic Fingerprints in an All-Organic Radical Molecular Break Junction

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