Propeller-like [Fe4(L)2(dk)6] complexes, in which Hdk is a β-diketone and H3L is a tripodal alcohol, R–C-(CH2OH)3, exhibit tunable magnetic anisotropy barriers and retain their magnetic memory effect when chemically anchored on metal surfaces. Heteronuclear analogues of these M4 complexes have been sought to afford a library of compounds with different total spin (S) values, but synthetic efforts described so far gave solid solutions containing M4 in addition to the desired M3M’ species. We now present a novel synthetic route to M3M’ complexes featuring a central chromium(III) ion. The three-step preparation goes through coordination of CrIII by two equivalents of tripodal alkoxide (R = Et and Ph), followed by reaction of this complex “core” with the peripheral +III metal ions. Products have been characterised by chemical analyses together with 1H-NMR, FTIR, W-band EPR, DC/AC magnetic susceptibility measurements and single crystal X-ray diffractometry. Due to the chemical inertness of CrIII, this route yields 100% pure Fe3Cr complexes without metal scrambling; what is more, it is suitable for designing novel heteronuclear single molecule magnets (SMMs) with a variety of d- and f-metals and R groups.
A New Approach to the Synthesis of Heteronuclear Propeller-like Single Molecule Magnets / P., Totaro; K. C. M., Westrup; M. E., Boulon; G. G., Nunes; D. F., Back; A., Barison; S., Ciattini; M., Mannini; L., Sorace; J. F., Soares; Cornia, Andrea; R., Sessoli. - In: DALTON TRANSACTIONS. - ISSN 1477-9226. - STAMPA. - 42:(2013), pp. 4416-4426. [10.1039/c2dt32618c]
A New Approach to the Synthesis of Heteronuclear Propeller-like Single Molecule Magnets
CORNIA, Andrea;
2013
Abstract
Propeller-like [Fe4(L)2(dk)6] complexes, in which Hdk is a β-diketone and H3L is a tripodal alcohol, R–C-(CH2OH)3, exhibit tunable magnetic anisotropy barriers and retain their magnetic memory effect when chemically anchored on metal surfaces. Heteronuclear analogues of these M4 complexes have been sought to afford a library of compounds with different total spin (S) values, but synthetic efforts described so far gave solid solutions containing M4 in addition to the desired M3M’ species. We now present a novel synthetic route to M3M’ complexes featuring a central chromium(III) ion. The three-step preparation goes through coordination of CrIII by two equivalents of tripodal alkoxide (R = Et and Ph), followed by reaction of this complex “core” with the peripheral +III metal ions. Products have been characterised by chemical analyses together with 1H-NMR, FTIR, W-band EPR, DC/AC magnetic susceptibility measurements and single crystal X-ray diffractometry. Due to the chemical inertness of CrIII, this route yields 100% pure Fe3Cr complexes without metal scrambling; what is more, it is suitable for designing novel heteronuclear single molecule magnets (SMMs) with a variety of d- and f-metals and R groups.
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