In‐Depth NMR Investigation of the Magnetic Hardening in Co Thin Films Induced by the Interface with Molecular Layers

Mattia Benini; Giuseppe Allodi; Alessandro Surpi; Alberto Riminucci; Ko‐Wei Lin; Samuele Sanna; Valentin Alek Dediu; Ilaria Bergenti

doi:10.1002/admi.202201394

Advanced Materials Interfaces (Dec 2022)

In‐Depth NMR Investigation of the Magnetic Hardening in Co Thin Films Induced by the Interface with Molecular Layers

Mattia Benini,
Giuseppe Allodi,
Alessandro Surpi,
Alberto Riminucci,
Ko‐Wei Lin,
Samuele Sanna,
Valentin Alek Dediu,
Ilaria Bergenti

Affiliations

Mattia Benini: CNR‐ISMN Via Piero Gobetti 101 Bologna 40129 Italy
Giuseppe Allodi: Department of Mathematical Physical and Computer Sciences University of Parma Parco Area delle Scienze 7/A Parma 43124 Italy
Alessandro Surpi: CNR‐ISMN Via Piero Gobetti 101 Bologna 40129 Italy
Alberto Riminucci: CNR‐ISMN Via Piero Gobetti 101 Bologna 40129 Italy
Ko‐Wei Lin: Department of Materials Science and Engineering National Chung Hsing University 145 Xingda Rd. Taichung City 402 Taiwan
Samuele Sanna: Department of Physics and Astronomy A. Righi University of Bologna via Berti Pichat 6‐2 Bologna I‐40127 Italy
Valentin Alek Dediu: CNR‐ISMN Via Piero Gobetti 101 Bologna 40129 Italy
Ilaria Bergenti: CNR‐ISMN Via Piero Gobetti 101 Bologna 40129 Italy

DOI: https://doi.org/10.1002/admi.202201394
Journal volume & issue: Vol. 9, no. 36
pp. n/a – n/a

Abstract

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Abstract The hybridization of the surface orbitals of thin ferromagnetic layers with molecular orbitals represents a soft but efficient technology that is able to induce in ferromagnetic component radical modifications of the key magnetic parameters, such as magnetization, magnetic anisotropy, and others. These effects are investigated in 7 nm thick polycrystalline Co films interfaced with C60 and Gaq3 molecular layers by combining 59Co Ferromagnetic nuclear resonance spectroscopy (FNR) and magneto‐optic kerr effect (MOKE) techniques. It is demonstrated that the surface hybridization produces a significant magnetic hardening with respect to a reference Co/Al system and that the molecule‐induced effects modify the magnetic properties of entire Co layer, propagating for several nm from the interface. The FNR spectroscopy also reveals a reconstruction of the magnetic environment at the cobalt surface, whose observation in polycrystalline films is especially intriguing. The results shed new and unexpected light on the interfacial physics in such systems, whose understanding necessitates further experimental and theoretical research.

Published in Advanced Materials Interfaces

ISSN: 2196-7350 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Technology
Website: https://onlinelibrary.wiley.com/journal/21967350

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