InhaltsangabeINTRODUCTION Why a Book Brief History of Molecular Magnetism Molecular Magnetism And Ln? Interdisciplinarity Applications Book Organization THE MAGNETISM AD THE CHEMICAL BOND Magnetic Orbitals ELECTRONIC STRUCTURE OF FREE IONS The Naked Ions Playing with Configurations Spin Orbit Coupling Applying a Magnetic Field ELECTRONIC STRUCTURE OF COORDINATED IONS Dressing Ions The Crystal Field The Aqua Ions The Angular Overlap Model Ab initio Approaches Comparison of the Two Approaches MAGNETISM OF IONS The Curie Law The Van Vleck Equation Anisotropy Steps Analysis of Magnetic Properties Structural Magnetic Correlations TOWARDS MOLECULAR FERROMAGNETS Magnetic Interactions Introducing Interactions Spin Hamiltonians Exchange and Superexchange STRUCTURE AND PROPERTIES OF COUPLED SYSTEMS Organic Ferromagnets d orbitals Hybrid Systems: f-d, f-f Cooperative Behavior THE MN12 REVOLUTION Introductory Remarks Spin Lattice Relaxation and T1 Phonons and Direct Mechanisms Two is Better than One Playing with Fields Something Real Spin Spin Relaxation and T2 MOLECULAR MAGNETS: SINGLE-MOLECULE AND SINGLE-CHAIN MAGNETISM The d Way MOLECULAR MAGNETS: SINGLE-ION MAGNETISM Why Single? The Phthalocyanine Family The Polyoxometallate Family Perspectives COOPERATIVE MAGNETS An Unexpected AFM EPR NMR Shift reagents MRI EXPERIMENTAL ASPECTS LUMINESCENCE A GLANCE TO SOLID STATE Oxides Superconductors Magnetic Nanoparticles Complementary Techniques

InhaltsangabeINTRODUCTION Why a Book Brief History of Molecular Magnetism Molecular Magnetism And Ln? Interdisciplinarity Applications Book Organization THE MAGNETISM AD THE CHEMICAL BOND Magnetic Orbitals ELECTRONIC STRUCTURE OF FREE IONS The Naked Ions Playing with Configurations Spin Orbit Coupling Applying a Magnetic Field ELECTRONIC STRUCTURE OF COORDINATED IONS Dressing Ions The Crystal Field The Aqua Ions The Angular Overlap Model Ab initio Approaches Comparison of the Two Approaches MAGNETISM OF IONS The Curie Law The Van Vleck Equation Anisotropy Steps Analysis of Magnetic Properties Structural Magnetic Correlations TOWARDS MOLECULAR FERROMAGNETS Magnetic Interactions Introducing Interactions Spin Hamiltonians Exchange and Superexchange STRUCTURE AND PROPERTIES OF COUPLED SYSTEMS Organic Ferromagnets d orbitals Hybrid Systems: f-d, f-f Cooperative Behavior THE MN12 REVOLUTION Introductory Remarks Spin Lattice Relaxation and T1 Phonons and Direct Mechanisms Two is Better than One Playing with Fields Something Real Spin Spin Relaxation and T2 MOLECULAR MAGNETS: SINGLE-MOLECULE AND SINGLE-CHAIN MAGNETISM The d Way MOLECULAR MAGNETS: SINGLE-ION MAGNETISM Why Single? The Phthalocyanine Family The Polyoxometallate Family Perspectives COOPERATIVE MAGNETS An Unexpected AFM EPR NMR Shift reagents MRI EXPERIMENTAL ASPECTS LUMINESCENCE A GLANCE TO SOLID STATE Oxides Superconductors Magnetic Nanoparticles Complementary Techniques

Leseprobe