We report on a comparative study of electronic and magnetic properties of Mn6 single-molecule magnets (SMMs) grafted on gold surface. Two derivatives with spin-ground states S ¼ 4 andhave been functionalized with 3-tp-CO2 (3-thiophene carboxylate, tpc) ligands and characterized thick films (TFs) as well as sub-monolayers (sMLs) by synchrotron based techniques. X-ray absorption spectroscopy at the Mn L2,3 edges shows the modification of the spectral lineshape in the sMLs respect to the TFs suggesting that the local symmetry at the Mn sites changes once the molecules deposited on gold surface. In spite of this, the expected MnIII oxidation state is preserved. X-ray magnetic circular dichroism (XMCD) spectra show that the total magnetic moment is only spin part because of the quenched orbital moment. Moreover, variable temperature and variable XMCD spectra reveal an effective decrease of the Mn spin moment for both derivatives.
Addressing the magnetic properties of sub-monolayers of single-molecule magnets by X-ray magnetic circular dichroism / Moro, Fabrizio; Valdis, Corradini; Marco, Evangelisti; Biagi, Roberto; DE RENZI, Valentina; DEL PENNINO, Umberto; Julio C., Cezar; Ross, Inglis; Constantinos J., Milios; Euan K., Brechin. - In: NANOSCALE. - ISSN 2040-3364. - STAMPA. - 2:12(2010), pp. 2698-2703. [10.1039/c0nr00483a]
Addressing the magnetic properties of sub-monolayers of single-molecule magnets by X-ray magnetic circular dichroism
MORO, Fabrizio;BIAGI, Roberto;DE RENZI, Valentina;DEL PENNINO, Umberto;
2010
Abstract
We report on a comparative study of electronic and magnetic properties of Mn6 single-molecule magnets (SMMs) grafted on gold surface. Two derivatives with spin-ground states S ¼ 4 andhave been functionalized with 3-tp-CO2 (3-thiophene carboxylate, tpc) ligands and characterized thick films (TFs) as well as sub-monolayers (sMLs) by synchrotron based techniques. X-ray absorption spectroscopy at the Mn L2,3 edges shows the modification of the spectral lineshape in the sMLs respect to the TFs suggesting that the local symmetry at the Mn sites changes once the molecules deposited on gold surface. In spite of this, the expected MnIII oxidation state is preserved. X-ray magnetic circular dichroism (XMCD) spectra show that the total magnetic moment is only spin part because of the quenched orbital moment. Moreover, variable temperature and variable XMCD spectra reveal an effective decrease of the Mn spin moment for both derivatives.
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