Multi-orbital charge transfer at highly oriented organic/metal interfaces

Charge transfer at molecule-metal interfaces affects the overall physical and magnetic properties of organic-based devices, and ultimately their performance. Here, the authors report evidence of a pronounced charge transfer involving nickel tetraphenyl porphyrin molecules adsorbed on copper.

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Autores principales: Giovanni Zamborlini, Daniel Lüftner, Zhijing Feng, Bernd Kollmann, Peter Puschnig, Carlo Dri, Mirko Panighel, Giovanni Di Santo, Andrea Goldoni, Giovanni Comelli, Matteo Jugovac, Vitaliy Feyer, Claus Michael Schneider
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Lenguaje:EN
Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/845e31019f6b4207b3673a09381e42fc
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spelling oai:doaj.org-article:845e31019f6b4207b3673a09381e42fc2021-12-02T15:38:55ZMulti-orbital charge transfer at highly oriented organic/metal interfaces10.1038/s41467-017-00402-02041-1723https://doaj.org/article/845e31019f6b4207b3673a09381e42fc2017-08-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-00402-0https://doaj.org/toc/2041-1723Charge transfer at molecule-metal interfaces affects the overall physical and magnetic properties of organic-based devices, and ultimately their performance. Here, the authors report evidence of a pronounced charge transfer involving nickel tetraphenyl porphyrin molecules adsorbed on copper.Giovanni ZamborliniDaniel LüftnerZhijing FengBernd KollmannPeter PuschnigCarlo DriMirko PanighelGiovanni Di SantoAndrea GoldoniGiovanni ComelliMatteo JugovacVitaliy FeyerClaus Michael SchneiderNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-8 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Giovanni Zamborlini
Daniel Lüftner
Zhijing Feng
Bernd Kollmann
Peter Puschnig
Carlo Dri
Mirko Panighel
Giovanni Di Santo
Andrea Goldoni
Giovanni Comelli
Matteo Jugovac
Vitaliy Feyer
Claus Michael Schneider
Multi-orbital charge transfer at highly oriented organic/metal interfaces
description Charge transfer at molecule-metal interfaces affects the overall physical and magnetic properties of organic-based devices, and ultimately their performance. Here, the authors report evidence of a pronounced charge transfer involving nickel tetraphenyl porphyrin molecules adsorbed on copper.
format article
author Giovanni Zamborlini
Daniel Lüftner
Zhijing Feng
Bernd Kollmann
Peter Puschnig
Carlo Dri
Mirko Panighel
Giovanni Di Santo
Andrea Goldoni
Giovanni Comelli
Matteo Jugovac
Vitaliy Feyer
Claus Michael Schneider
author_facet Giovanni Zamborlini
Daniel Lüftner
Zhijing Feng
Bernd Kollmann
Peter Puschnig
Carlo Dri
Mirko Panighel
Giovanni Di Santo
Andrea Goldoni
Giovanni Comelli
Matteo Jugovac
Vitaliy Feyer
Claus Michael Schneider
author_sort Giovanni Zamborlini
title Multi-orbital charge transfer at highly oriented organic/metal interfaces
title_short Multi-orbital charge transfer at highly oriented organic/metal interfaces
title_full Multi-orbital charge transfer at highly oriented organic/metal interfaces
title_fullStr Multi-orbital charge transfer at highly oriented organic/metal interfaces
title_full_unstemmed Multi-orbital charge transfer at highly oriented organic/metal interfaces
title_sort multi-orbital charge transfer at highly oriented organic/metal interfaces
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/845e31019f6b4207b3673a09381e42fc
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AT danielluftner multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT zhijingfeng multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT berndkollmann multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT peterpuschnig multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT carlodri multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT mirkopanighel multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
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AT andreagoldoni multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT giovannicomelli multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT matteojugovac multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT vitaliyfeyer multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
AT clausmichaelschneider multiorbitalchargetransferathighlyorientedorganicmetalinterfaces
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