Tuning Quantum Tunneling in Isomorphic {M<sup>II</sup><sub>2</sub>Dy<sup>III</sup><sub>2</sub>} “Butterfly” System via 3d-4f Magnetic Interaction
Gao‐Peng Li, Hai-Zhou Tang, Ruicheng Gao, Yao‐Yu Wang, Xin Sun, Kun Zhang
Abstract
In order to probe the magnetic relaxation mechanism of 3d-4f complexes systematically, two “Butterfly” M II 2 Dy III 2 complexes related to our previously reported butterfly compound, [Zn 2 Dy 2 (L) 4 (Ac) 2 (DMF) 2 ]·4CH 3 CN ( 1 ), and formulated as [Co 2 Dy 2 (L) 4 (Ac) 2 (DMF) 2 ]·3CH 3 CN ( 2 ) and [Ni 2 Dy 2 (L) 4 (Ac) 2 (DMF) 2 ]·3CH 3 CN ( 3 ) are prepared and characterized. In comparison to complex 1, the replacement of Co II or Ni II with Zn II led to the effective quenching of quantum tunneling of the magnetization (QTM) in complexes 2 and 3 . Obviously, the introduction of 3d-4f spin–spin exchange can be important in determining the overall magnetic behaviors of 3d-4f {M II 2 Dy III 2 } “Butterfly” systems.