Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices

Controlling the magnetic response of a molecular device is important for spintronic applications. Here the authors report the self-assembly, magnetic coupling, and anisotropy of two transition metal complexes bound to a ferrimagnetic surface, and probe the role of the nature of the transition metal...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Victoria E. Campbell, Monica Tonelli, Irene Cimatti, Jean-Baptiste Moussy, Ludovic Tortech, Yannick J. Dappe, Eric Rivière, Régis Guillot, Sophie Delprat, Richard Mattana, Pierre Seneor, Philippe Ohresser, Fadi Choueikani, Edwige Otero, Florian Koprowiak, Vijay Gopal Chilkuri, Nicolas Suaud, Nathalie Guihéry, Anouk Galtayries, Frederic Miserque, Marie-Anne Arrio, Philippe Sainctavit, Talal Mallah
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
Materias:
Q
Acceso en línea:https://doaj.org/article/8e42e4525f1f4deb8d37252934ef2c38
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:8e42e4525f1f4deb8d37252934ef2c38
record_format dspace
spelling oai:doaj.org-article:8e42e4525f1f4deb8d37252934ef2c382021-12-02T17:32:35ZEngineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices10.1038/ncomms136462041-1723https://doaj.org/article/8e42e4525f1f4deb8d37252934ef2c382016-12-01T00:00:00Zhttps://doi.org/10.1038/ncomms13646https://doaj.org/toc/2041-1723Controlling the magnetic response of a molecular device is important for spintronic applications. Here the authors report the self-assembly, magnetic coupling, and anisotropy of two transition metal complexes bound to a ferrimagnetic surface, and probe the role of the nature of the transition metal ion.Victoria E. CampbellMonica TonelliIrene CimattiJean-Baptiste MoussyLudovic TortechYannick J. DappeEric RivièreRégis GuillotSophie DelpratRichard MattanaPierre SeneorPhilippe OhresserFadi ChoueikaniEdwige OteroFlorian KoprowiakVijay Gopal ChilkuriNicolas SuaudNathalie GuihéryAnouk GaltayriesFrederic MiserqueMarie-Anne ArrioPhilippe SainctavitTalal MallahNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-10 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Victoria E. Campbell
Monica Tonelli
Irene Cimatti
Jean-Baptiste Moussy
Ludovic Tortech
Yannick J. Dappe
Eric Rivière
Régis Guillot
Sophie Delprat
Richard Mattana
Pierre Seneor
Philippe Ohresser
Fadi Choueikani
Edwige Otero
Florian Koprowiak
Vijay Gopal Chilkuri
Nicolas Suaud
Nathalie Guihéry
Anouk Galtayries
Frederic Miserque
Marie-Anne Arrio
Philippe Sainctavit
Talal Mallah
Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
description Controlling the magnetic response of a molecular device is important for spintronic applications. Here the authors report the self-assembly, magnetic coupling, and anisotropy of two transition metal complexes bound to a ferrimagnetic surface, and probe the role of the nature of the transition metal ion.
format article
author Victoria E. Campbell
Monica Tonelli
Irene Cimatti
Jean-Baptiste Moussy
Ludovic Tortech
Yannick J. Dappe
Eric Rivière
Régis Guillot
Sophie Delprat
Richard Mattana
Pierre Seneor
Philippe Ohresser
Fadi Choueikani
Edwige Otero
Florian Koprowiak
Vijay Gopal Chilkuri
Nicolas Suaud
Nathalie Guihéry
Anouk Galtayries
Frederic Miserque
Marie-Anne Arrio
Philippe Sainctavit
Talal Mallah
author_facet Victoria E. Campbell
Monica Tonelli
Irene Cimatti
Jean-Baptiste Moussy
Ludovic Tortech
Yannick J. Dappe
Eric Rivière
Régis Guillot
Sophie Delprat
Richard Mattana
Pierre Seneor
Philippe Ohresser
Fadi Choueikani
Edwige Otero
Florian Koprowiak
Vijay Gopal Chilkuri
Nicolas Suaud
Nathalie Guihéry
Anouk Galtayries
Frederic Miserque
Marie-Anne Arrio
Philippe Sainctavit
Talal Mallah
author_sort Victoria E. Campbell
title Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
title_short Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
title_full Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
title_fullStr Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
title_full_unstemmed Engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
title_sort engineering the magnetic coupling and anisotropy at the molecule–magnetic surface interface in molecular spintronic devices
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/8e42e4525f1f4deb8d37252934ef2c38
work_keys_str_mv AT victoriaecampbell engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT monicatonelli engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT irenecimatti engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT jeanbaptistemoussy engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT ludovictortech engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT yannickjdappe engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT ericriviere engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT regisguillot engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT sophiedelprat engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT richardmattana engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT pierreseneor engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT philippeohresser engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT fadichoueikani engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT edwigeotero engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT floriankoprowiak engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT vijaygopalchilkuri engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT nicolassuaud engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT nathalieguihery engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT anoukgaltayries engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT fredericmiserque engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT marieannearrio engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT philippesainctavit engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
AT talalmallah engineeringthemagneticcouplingandanisotropyatthemoleculemagneticsurfaceinterfaceinmolecularspintronicdevices
_version_ 1718380262398623744