Physics of the Solid State
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Effect of contact with a metal surface on magnetic relaxation in monomolecular magnets in zero magnetic field
Kunitsyna E. I. 1, Morgunov R.B. 1,2,3, Valeev R. A. 3, Piskorskii V. P. 3, Burkanov M. V. 3
1Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS, Сhernogolovka, Russia
2Tambov State Technical University, Tambov, Russia
3All-Russian Scientific Research Institute of Aviation Materials of the Research Center "Kurchatov Institute", Moscow, Russia
Email: kunya_kat@mail.ru, spintronics2022@yandex.ru

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The appearance of relaxation maxima on the frequency dependence of magnetic susceptibility was discovered when ferromagnetic demagnetized microparticles of the PrDyFeCoB metal alloy were mixed with an erbium-based molecular magnet complex. At 2 K, ferromagnetic metal microparticles, as well as molecular complexes, did not exhibit magnetic relaxation in the frequency range of 0.1-1400 Hz, accessible to the SQUID magnetometer. In a pressed mixture of a composite material made from these components, the magnetic relaxation signal has a maximum at ~1 kHz. X-ray photoelectron spectroscopy (XPS) of the composite material and comparison of the XPS spectra with the spectra of the initial components of the composite showed that the 10-coordinated complex is oxidized to 8-coordinated as a result of contact with the surface of demagnetized metal microspheres. Keywords: olecular magnets, hybridization of molecular orbitals, magnetic relaxation, composite materials.
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