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Article Abstract
Herein, we report the room-temperature synthesis, structural characterization, and magnetic performances of two new families of dinuclear Ni-Ln complexes, [NiLn(HL)(NO)]·HO·CHCN (1a-1c) ( = 1 for Ln = Tb, and = 1.5 for Dy and Ho) and [NiLn(HL)(OAc)(HO)]Cl·5HO (2a-2c) (Ln = Tb, Dy, and Ho), developed utilizing the ligand HL (2-methoxy-6-[()-2'-hydroxymethyl-phenyliminomethyl]-phenol). Partial deprotonation of HL in the reaction medium provided HL, ideally suited for trapping Ni and selected 4f ions in its two adjacent pockets. X-ray structural characterization of complexes 1a-2c showed the preferential pinning of the octahedral Ni center by the imine N-donor alongside Ln centers with a coordination number of nine in a muffin geometry. Both Dy analogs exhibited clear out-of-phase signals (1b and 2b; = 20 K and 18.7 K, respectively) in the absence of an external dc field in ac magnetic susceptibility measurements, whereas slow relaxation of magnetization was apparent under the optimal applied fields of 2 and 3 kOe for the Tb analogs (1a and 2a) and Ho analogs (1c and 2c), respectively. The analysis of static and dynamic magnetic properties was reinforced by thorough CASSCF-based computational analysis and density functional theory (DFT) calculations.
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