2015
DOI: 10.1103/physrevlett.114.247203
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Tuning the Magnetic Anisotropy at a Molecule-Metal Interface

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Cited by 120 publications
(145 citation statements)
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“…The impact of carbon-based molecules on adjacent ferromagnets is not limited to spin filtering and electronic transport, but extends to induced changes in the metal anisotropy, magnetization, coercivity, and bias (12)(13)(14). Charge transfer and d(metal)-π(carbon) orbital coupling at the interface may change the density of states, spin population, and exchange of metallocarbon interfaces (4,15,16).…”
mentioning
confidence: 99%
“…The impact of carbon-based molecules on adjacent ferromagnets is not limited to spin filtering and electronic transport, but extends to induced changes in the metal anisotropy, magnetization, coercivity, and bias (12)(13)(14). Charge transfer and d(metal)-π(carbon) orbital coupling at the interface may change the density of states, spin population, and exchange of metallocarbon interfaces (4,15,16).…”
mentioning
confidence: 99%
“…Together with other new methods for probing single-molecule spin states [5,[8][9][10][11][12], control and read-out of single molecules and atoms is possible. Experiments on single magnetic atoms and molecules show distance dependent effects in their exchange [13][14][15][16], large anisotropy of individual molecules [17][18][19][20], as well as collective spin excitations and Kondo effect [21][22][23][24]. Recent experimental progress show long-time stability of the spin state of individual atoms on a surface [25][26][27].…”
Section: Introductionmentioning
confidence: 99%
“…For example, it has been shown that the magnetic properties of Co thin films, such as saturation magnetization, coercivity, and magnetic anisotropy, are strongly affected by interface formation with C 60 molecules [113,114]. Kawahara et al performed ST-SPM measurements on C 60 molecules adsorbed on magnetic Cr(001), showing that spin-split hybrid orbitals are formed [90].…”
Section: Spin Dependent Effects At Hybrid Interfacesmentioning
confidence: 99%