Molecule-Based Exchange-Coupled High-Spin Clusters

Abstract

Syntheses and magnetic functionalities of exchange-coupled magnetic systemsin a controlled fashion of molecular basis have been the focus of the current topics in chemistry and materials science; particularly extremely large spins in molecular frames and molecular high-spin clusters have attracted much attention among the diverse topics of molecule-based magnetics and high spin chemistry. Magnetic characterizations of molecule-based exchange-coupled high-spin clusters are described in terms of conventional as well as highfield/high-frequency ESR spectroscopy. Off-principal-axis extra lines as a salient feature of fine structure ESR spectroscopy in non-oriented media are emphasized in the spectral analyses. Pulse-ESR-based two-dimensional electron spin transient nutation spectroscopy applied to molecular high-spin clusters is also dealt with, briefly. Solution-phase fine-structure ESR spectroscopy is reviewed in terms of molecular magnetics. In addition to finite molecular high-spin clusters, salient features of molecule-based low-dimensional magnetic materials are dealt with. Throughout the chapter, electron spin resonance for high-spin systems is treated in a general manner in terms of theory. Hybrid eigenfield method is formulated in terms of direct products, and is described as a powerful and facile approach to the exact numerical calculation of resonance fields and transition probabilities for molecular high spin systems. Exact analytical expressions for resonance fields of high spin systems in their principal orientations are for the first time given.Key wordsmolecule-based exchange-coupled systemsmolecular high-spin clusterslow-dimensional molecule-based magnetic materialshigh-field/high-frequency ESR2D electron spin transient nutation spectroscopypulsed ESRfine-structure ESRoff-principal-axis extra lineshybrid eigenfield approachperturbation approachspin quantum tunnelinglong-time-tail transverse relaxationbiological high-spin clusters.