TY - JOUR
T1 - Ligand Design for Securing Ferromagnetic Exchange Coupling in Multimetallic Complexes
AU - Gordon‐Wylie, Scott W.
AU - Bominaar, Emile L.
AU - Collins, Terrence J.
AU - Workman, José M.
AU - Claus, Brian L.
AU - Patterson, Robert E.
AU - Williams, Stacy A.
AU - Conklin, Brenda J.
AU - Yee, Gordon T.
AU - Weintraub, Susan E
PY - 1995/11
Y1 - 1995/11
N2 - An approach is suggested for using ligands to control exchange coupling in multinuclear ions. The idea arose from structural, EPR, and magnetic studies of [PPh4]3 (Scheme 1). Ferromagnetic coupling has been found between the CoII and each CoIII in 3 with J = −22 ± 5 cm−1 (JS1 · S2). It is suggested that dominant antiferromagnetic superexchange is absent because of the strong σ‐donor capacity of the tetradentate ligand [k4‐PAC*]4− (Fig. 1). The ligand interacts at CoIII primarily with a single d orbital; it is thus best able to participate in superexchange. The interaction makes the unique d orbital strongly σ‐antibonding and empty for each d6, S = 1, CoIII ion in 3, that is, unavailable for antiferromagnetic coupling, but available for ferromagnetic pathways by a Goodenough‐Kanamori mechanism. By corollary, when any [k4‐PAC*]4−‐type ligand with any magnetic ion Ma in the tetradentate site binds any magnetic ion Mb in the bidentate site, ferromagnetic coupling should be favored provided Ma is not a d9 ion.
AB - An approach is suggested for using ligands to control exchange coupling in multinuclear ions. The idea arose from structural, EPR, and magnetic studies of [PPh4]3 (Scheme 1). Ferromagnetic coupling has been found between the CoII and each CoIII in 3 with J = −22 ± 5 cm−1 (JS1 · S2). It is suggested that dominant antiferromagnetic superexchange is absent because of the strong σ‐donor capacity of the tetradentate ligand [k4‐PAC*]4− (Fig. 1). The ligand interacts at CoIII primarily with a single d orbital; it is thus best able to participate in superexchange. The interaction makes the unique d orbital strongly σ‐antibonding and empty for each d6, S = 1, CoIII ion in 3, that is, unavailable for antiferromagnetic coupling, but available for ferromagnetic pathways by a Goodenough‐Kanamori mechanism. By corollary, when any [k4‐PAC*]4−‐type ligand with any magnetic ion Ma in the tetradentate site binds any magnetic ion Mb in the bidentate site, ferromagnetic coupling should be favored provided Ma is not a d9 ion.
KW - exchange coupling
KW - ferromagnetic properties
KW - ligand design
KW - magnetic properties
KW - multimetallic complexes
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U2 - 10.1002/chem.19950010806
DO - 10.1002/chem.19950010806
M3 - Article
AN - SCOPUS:84989593841
SN - 0947-6539
VL - 1
SP - 528
EP - 537
JO - Chemistry – A European Journal
JF - Chemistry – A European Journal
IS - 8
ER -