1 research outputs found
Highly Reduced Double-Decker Single-Molecule Magnets Exhibiting Slow Magnetic Relaxation
No full textF<sub>64</sub>Pc<sub>2</sub>Ln (<b>1</b><sub><b>Ln</b></sub>, Ln = Tb or Lu) represent the first halogenated phthalocyanine double-decker
lanthanide complexes, and <b>1</b><sub><b>Tb</b></sub> exhibits single-molecule magnet properties as revealed by solid-state
magnetometry. The fluorine substituents of the phthalocyanine rings
have a dramatic effect on the redox properties of the F<sub>64</sub>Pc<sub>2</sub>Ln complexes, namely, a stabilization of their reduced
states. Electrochemical and spectroelectrochemical measurements demonstrate
that the <b>1</b><sub><b>Tb</b></sub><sup><b>β/2β</b></sup> and <b>1</b><sub><b>Tb</b></sub><sup><b>2β/3β</b></sup> couples exhibit redox reversibility and that the <b>1</b><sub><b>Tb</b></sub><sup><b>β</b></sup>, <b>1</b><sub><b>Tb</b></sub><sup><b>2β</b></sup> and <b>1</b><sub><b>Tb</b></sub><sup><b>3β</b></sup> species may be prepared by bulk electrolysis in acetone. Low-temperature
MCD studies reveal for the first time magnetization hystereses for
the super-reduced dianionic and trianionic states of Pc<sub>2</sub>Ln
