Spinterface Formation of Sexithiophene (6T) on Ferromagnetic Surfaces

Maha Alotaibi; Phillip Bentley; Jack Bradley; Toby Bird; Oskar Fossberg; Gabriele Bertolini; Steve Tear; Ilaria Bergenti; Andrew Pratt

doi:10.1109/TMAG.2023.3283093

Spinterface Formation of Sexithiophene (6T) on Ferromagnetic Surfaces

Maha Alotaibi, Phillip Bentley, Jack Bradley, Toby Bird, Oskar Fossberg, Gabriele Bertolini, Steve Tear, Ilaria Bergenti, Andrew Pratt^*

^*Corresponding author for this work

Physics

Research output: Contribution to journal › Article › peer-review

Abstract

Interfaces between organic molecules and ferromagnetic (FM) materials play a critical role in a variety of remarkable spin-related effects. In order to employ such spinterfaces in next-generation molecular spintronic devices, it is crucial to characterize and control these spin effects. Here, we report the features of prototypical spinterfaces comprised of sexithiophene (6T) (C24H14S6) deposited on FM metal and FM oxide surfaces. We have investigated the controlled coverage of 6T monolayers on an Fe surface using a variety of advanced characterization techniques and show that adsorption leads to the formation of monodisperse conjugated solid islands. Atomic force microscopy (AFM) results show that a 0.5 ML 6T deposition leads to solid islands, while with an increased thickness of 1.25 ML, the material is deposited in the form of aggregated islands. X-ray photoelectron spectroscopy (XPS) and ultraviolet photoelectron spectroscopy (UPS) data reveal the orientation and electronic structure of the 6T/Fe system. Comparisons are also made to 6T adsorption on the more inert Fe3O4(001) surface revealing the importance of adsorption geometry, molecular packing, and surface reconstruction in determining spinterfacial electronic structure and associated device performance.

Original language	English
Article number	4100304
Journal	IEEE Transactions on Magnetics
Volume	59
Issue number	11
Early online date	14 Jun 2023
DOIs	https://doi.org/10.1109/TMAG.2023.3283093
Publication status	Published - 1 Nov 2023

Bibliographical note

Publisher Copyright:
© 1965-2012 IEEE.

Keywords

Organic semiconductors (OSCs)
organic spintronics
sexithiophene (6T)
spinterface

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10.1109/TMAG.2023.3283093

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title = "Spinterface Formation of Sexithiophene (6T) on Ferromagnetic Surfaces",

abstract = "Interfaces between organic molecules and ferromagnetic (FM) materials play a critical role in a variety of remarkable spin-related effects. In order to employ such spinterfaces in next-generation molecular spintronic devices, it is crucial to characterize and control these spin effects. Here, we report the features of prototypical spinterfaces comprised of sexithiophene (6T) (C24H14S6) deposited on FM metal and FM oxide surfaces. We have investigated the controlled coverage of 6T monolayers on an Fe surface using a variety of advanced characterization techniques and show that adsorption leads to the formation of monodisperse conjugated solid islands. Atomic force microscopy (AFM) results show that a 0.5 ML 6T deposition leads to solid islands, while with an increased thickness of 1.25 ML, the material is deposited in the form of aggregated islands. X-ray photoelectron spectroscopy (XPS) and ultraviolet photoelectron spectroscopy (UPS) data reveal the orientation and electronic structure of the 6T/Fe system. Comparisons are also made to 6T adsorption on the more inert Fe3O4(001) surface revealing the importance of adsorption geometry, molecular packing, and surface reconstruction in determining spinterfacial electronic structure and associated device performance.",

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AU - Alotaibi, Maha

AU - Bentley, Phillip

AU - Bradley, Jack

AU - Bird, Toby

AU - Fossberg, Oskar

AU - Bertolini, Gabriele

AU - Tear, Steve

AU - Bergenti, Ilaria

AU - Pratt, Andrew

PY - 2023/11/1

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N2 - Interfaces between organic molecules and ferromagnetic (FM) materials play a critical role in a variety of remarkable spin-related effects. In order to employ such spinterfaces in next-generation molecular spintronic devices, it is crucial to characterize and control these spin effects. Here, we report the features of prototypical spinterfaces comprised of sexithiophene (6T) (C24H14S6) deposited on FM metal and FM oxide surfaces. We have investigated the controlled coverage of 6T monolayers on an Fe surface using a variety of advanced characterization techniques and show that adsorption leads to the formation of monodisperse conjugated solid islands. Atomic force microscopy (AFM) results show that a 0.5 ML 6T deposition leads to solid islands, while with an increased thickness of 1.25 ML, the material is deposited in the form of aggregated islands. X-ray photoelectron spectroscopy (XPS) and ultraviolet photoelectron spectroscopy (UPS) data reveal the orientation and electronic structure of the 6T/Fe system. Comparisons are also made to 6T adsorption on the more inert Fe3O4(001) surface revealing the importance of adsorption geometry, molecular packing, and surface reconstruction in determining spinterfacial electronic structure and associated device performance.

AB - Interfaces between organic molecules and ferromagnetic (FM) materials play a critical role in a variety of remarkable spin-related effects. In order to employ such spinterfaces in next-generation molecular spintronic devices, it is crucial to characterize and control these spin effects. Here, we report the features of prototypical spinterfaces comprised of sexithiophene (6T) (C24H14S6) deposited on FM metal and FM oxide surfaces. We have investigated the controlled coverage of 6T monolayers on an Fe surface using a variety of advanced characterization techniques and show that adsorption leads to the formation of monodisperse conjugated solid islands. Atomic force microscopy (AFM) results show that a 0.5 ML 6T deposition leads to solid islands, while with an increased thickness of 1.25 ML, the material is deposited in the form of aggregated islands. X-ray photoelectron spectroscopy (XPS) and ultraviolet photoelectron spectroscopy (UPS) data reveal the orientation and electronic structure of the 6T/Fe system. Comparisons are also made to 6T adsorption on the more inert Fe3O4(001) surface revealing the importance of adsorption geometry, molecular packing, and surface reconstruction in determining spinterfacial electronic structure and associated device performance.

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Spinterface Formation of Sexithiophene (6T) on Ferromagnetic Surfaces

Abstract

Bibliographical note

Keywords

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