Molecular Order in Buried Layers of TbPc<sub>2</sub> Single‐Molecule Magnets Detected by Torque Magnetometry

Perfetti, Mauro; Serri, Michele; Poggini, Lorenzo; Mannini, Matteo; Rovai, Donella; Sainctavit, Philippe; Heutz, Sandrine; Sessoli, Roberta

doi:10.1002/adma.201600791

Cited by 24 publications

(26 citation statements)

References 46 publications

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“…Initially, absorption spectra were recorded with linear vertical (s V ) and horizontal (s H ) polarization of the incoming X-rays to obtain the X-ray natural linear dichroism (XNLD) signal (s V -s H ), which provides information about molecular ordering on surfaces. 31,32 The XNLD spectrum (ESI, † Fig. S1.4) showed a strong dichroic signal at the L 2,3 edges of V, thereby confirming the high ordering of the molecular layer in agreement with STM results.…”

Section: Resultssupporting

confidence: 79%

“…The dropcast contains a large number of molecules (see Methods) and could, therefore, be used as a ''fingerprint'' of the VOPc molecules at the L 2,3 edges of V. The shape of the XMCD line of the VOPc monolayer on graphene is in good agreement with the dropcast one, except for small differences attributed to the ordered configuration of the molecules deposited on graphene. 31,32 At y = 01, the %XMCD is À44% and À40% for the monolayer deposited on graphene and the dropcast, respectively. The XMCD data confirm the persistence of localized spin on the V atom after molecular adsorption on the Gr/SiC(0001) surface.…”

Section: Resultsmentioning

confidence: 99%

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Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

et al. 2019

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Section: Resultssupporting

confidence: 79%

Section: Resultsmentioning

confidence: 99%

Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

et al. 2019

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“…However, in the last years CTM has gained importance due to its simplicity and accuracy . A major advantage of this technique is its sensitivity, which allows for detection of the anisotropy of small crystals of microgram size or even thin layers of magnetic molecules up to room temperature . All the CTM measurements reported in this paper were obtained with the crystals mounted on the cantilever as sketched in Figure a.…”

Section: Resultsmentioning

confidence: 99%

Magnetic Anisotropy Switch: Easy Axis to Easy Plane Conversion and Vice Versa

Perfetti

Sørensen

Hansen

et al. 2018

Adv Funct Materials

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The rational design of the magnetic anisotropy of molecular materials constitutes a goal of primary importance in molecular magnetism. Indeed, the applications of molecular nanomagnets, such as single-molecule magnets and molecular magnetic refrigerants, depend on the full control over this property. Axially anisotropic magnetic systems are frequently classified as easy axis or easy plane, depending on whether the lowest energy is obtained by application of a magnetic field parallelly or perpendicularly to the unique axis. Here, the magnetic anisotropy of three lanthanide complexes is studied as a function of magnetic field and temperature. It is found that for two of these the type of magnetic anisotropy switches as a function of these parameters. Thus, this paper experimentally demonstrates that the magnetic anisotropy is not uniquely defined by the intrinsic electronic structure of the systems in question but can also be reversibly switched using external stimuli: temperature and magnetic field.

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“…Cantilever torque magnetometry (CTM) has demonstrated a major ability to separate more than one contribution to the magnetic anisotropy coming from either intramolecular or intermolecular noncollinearity. More recently, the technique was also applied to magnetic metal–organic frameworks and anisotropic thin films . The main concept of this powerful technique is to detect the magnetic torque experienced in a homogeneous field by a single crystal of a magnetic sample fixed to a cantilever acting as the upper plate of a capacitor .…”

Section: Resultsmentioning

confidence: 99%

Magnetic Anisotropy in Pentacoordinate Ni^II and Co^II Complexes: Unraveling Electronic and Geometrical Contributions

Cahier

Perfetti

Zakhia

et al. 2017

Chemistry A European J

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The magnetic properties of the pentacoordinate [M (Me cyclam)N ] (Me cyclam=tetramethylcyclam; N =azido; M=Ni, Co) complexes were investigated. Magnetization and EPR studies indicate that they have an easy plane of magnetization with axial anisotropy parameters D close to 22 and greater than 30 cm for the Ni and Co complexes, respectively. Ab initio calculations reproduced the experimental values of the zero-field splitting parameters and allowed the orientation of the anisotropy tensor axes with respect to the molecular frame to be determined. For M=Ni, the principal anisotropy axis lies along the Ni-N direction perpendicular to the Ni(Me cyclam) mean plane, whereas for M=Co it lies in the Co(Me cyclam) mean plane and thus perpendicular to the Co-N direction. These orientations match one of the possible solutions experimentally provided by single-crystal cantilever torque magnetometry. To rationalize the geometry and its impact on the orientation of the anisotropy tensor axis, calculations were carried out on model complexes [Ni (NCH) ] and [Co (NCH) ] by varying the geometry between square pyramidal and trigonal bipyramidal. The geometry of the complexes was found to be the result of a compromise between the electronic configuration of the metal ion and the structure-orienting effect of the Me cyclam macrocycle. Moreover, the orientation of the anisotropy axes is mainly dependent on the geometry of the complexes.

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Molecular Order in Buried Layers of TbPc₂ Single‐Molecule Magnets Detected by Torque Magnetometry

Cited by 24 publications

References 46 publications

Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

Magnetic Anisotropy Switch: Easy Axis to Easy Plane Conversion and Vice Versa

Magnetic Anisotropy in Pentacoordinate Ni^II and Co^II Complexes: Unraveling Electronic and Geometrical Contributions

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Molecular Order in Buried Layers of TbPc2 Single‐Molecule Magnets Detected by Torque Magnetometry

Cited by 24 publications

References 46 publications

Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

Vanadyl phthalocyanines on graphene/SiC(0001): toward a hybrid architecture for molecular spin qubits

Magnetic Anisotropy Switch: Easy Axis to Easy Plane Conversion and Vice Versa

Magnetic Anisotropy in Pentacoordinate NiII and CoII Complexes: Unraveling Electronic and Geometrical Contributions

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Molecular Order in Buried Layers of TbPc₂ Single‐Molecule Magnets Detected by Torque Magnetometry

Magnetic Anisotropy in Pentacoordinate Ni^II and Co^II Complexes: Unraveling Electronic and Geometrical Contributions