Magnetism and Ligand-Field Analysis PDF Download

Author: M. Gerloch
Publisher: CUP Archive
ISBN: 9780521249393
Category : Science
Languages : en
Pages : 616

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Book Description
In this book, a synthesis of old and new notions straddling the disciplines of physics and chemistry is described.

Author: Joel S. Miller
Publisher: John Wiley & Sons
ISBN: 3527605401
Category : Science
Languages : en
Pages : 496

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Book Description
Magnetic phenomena and materials are everywhere. Our understanding of magnetic behavior, once thought to be mature, has enjoyed new impetus from contributions ranging from molecular chemistry, materials chemistry and sciences to solid state physics. New phenomena are explored that open promising perspectives for commercial applications in future - carrying out chemical reactions in magnetic fields is just one of those. The spectrum spans molecule-based - organic, (bio)inorganic, and hybrid - compounds, metallic materials as well as their oxides forming thin films, nanoparticles, wires etc. Reflecting contemporary knowledge, this open series of volumes provides a much-needed comprehensive overview of this growing interdisciplinary field. Topical reviews written by foremost scientists explain the trends and latest advances in a clear and detailed way. By maintaining the balance between theory and experiment, the book provides a guide for both advanced students and specialists to this research area. It will help evaluate their own experimental observations and serve as a basis for the design of new magnetic materials. A unique reference work, indispensable for everyone concerned with the phenomena of magnetism!

Author: K.H.J Buschow
Publisher: Springer Science & Business Media
ISBN: 0306484080
Category : Science
Languages : en
Pages : 175

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Book Description
In this book, the fundamentals of magnetism are treated, starting at an introductory level. The origin of magnetic moments, the response to an applied magnetic field, and the various interactions giving rise to different types of magnetic ordering in solids are presented and many examples are given. Crystalline-electric-field effects are treated at a level that is sufficient to provide the basic knowledge necessary in understanding the properties of materials in which these effects play a role. Itinerant-electron magnetism is presented on a similar basis. Particular attention has been given to magnetocrystalline magnetic anisotropy and the magnetocaloric effect. Also, the usual techniques for magnetic measurements are presented. About half of the book is devoted to magnetic materials and the properties that make them suitable for numerous applications. The state of the art is presented of permanent magnets, high-density recording materials, soft-magnetic materials, Invar alloys and magnetostrictive materials. Many references are given.

Author: Cristiano Benelli
Publisher: John Wiley & Sons
ISBN: 3527690565
Category : Science
Languages : en
Pages : 520

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Book Description
This first introduction to the rapidly growing field of molecular magnetism is written with Masters and PhD students in mind, while postdocs and other newcomers will also find it an extremely useful guide. Adopting a clear didactic approach, the authors cover the fundamental concepts, providing many examples and give an overview of the most important techniques and key applications. Although the focus is one lanthanide ions, thus reflecting the current research in the field, the principles and the methods equally apply to other systems. The result is an excellent textbook from both a scientific and pedagogic point of view.

Author: Joel S. Miller
Publisher: John Wiley & Sons
ISBN: 9783527306657
Category : Science
Languages : en
Pages : 410

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Book Description
Combining the contemporary knowledge from widely scattered sources, this is a much-needed and comprehensive overview of the field. In maintaining a balance between theory and experiment, the book guides both advanced students and specialists to this research area. Topical reviews written by the foremost scientists explain recent trends and advances, focusing on the correlations between electronic structure and magnetic properties. The book spans recent trends in magnetism for molecules -- as well as inorganic-based materials, with an emphasis on new phenomena being explored from both experimental and theoretical viewpoints with the aim of understanding magnetism on the atomic scale. The volume helps readers evaluate their own experimental observations and serves as a basis for the design of new magnetic materials. Topics covered include: * Metallocenium Salts of Radical Anion Bis-(dichalcogenate) metalates * Chiral Molecule-Based Magnets * Cooperative Magnetic Behavior in Metal-Dicyanamide Complexes * Lanthanide Ions in Molecular Exchange Coupled Systems * Monte Carlo Simulation * Metallocene-Based Magnets * Magnetic Nanoporous Molecular Materials A unique reference work, indispensable for everyone concerned with the phenomena of magnetism.

Author: Jeffrey Dennis Rinehart
Publisher:
ISBN:
Category :
Languages : en
Pages : 176

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Book Description
This dissertation describes the research that led to the discovery of single-molecule magnetism in the actinides. Chapter One is an introduction to the concepts that lead to single-molecule magnet behavior with an emphasis on the specific qualities of the f-elements that make them interesting for such studies. A simple model for predicting ligand field environments that should be amenable to single-molecule magnet behavior is presented along with several examples of its application to lanthanide and actinide systems. The study of magnetic exchange coupling in uranium-containing multinuclear complexes is discussed and the literature on the subject is reviewed. Chapter Two describes how the homoleptic dimer complex [U(Me2Pz)4]2 (Me2Pz- = 3,5-dimethylpyrazolate) can be cleaved via insertion of terminal chloride ligands, such that reactions with (cyclam)MCl2 (M = Ni, Cu, Zn; cyclam = 1,4,8,11-tetraazacyclotetradecane) in dichloromethane generate the linear, chloride-bridged clusters (cyclam)M[([mu]-Cl)U(Me2Pz)4]2. Variable-temperature magnetic susceptometry is used to reveal the presence of weak ferromagnetic coupling between the Ni(II) (S = 1) and U(IV) centers and no coupling between the Cu(II) (S = 1/2) and U(IV) centers. Consistent with a simple superexchange mechanism for the coupling, density functional theory calculations performed on a [(Me2Pz)4UCl]- fragment of the cluster show the spin resides in 5fxyz and 5fz(x2-y2) orbitals, exhibiting delta symmetry with respect to the U-Cl bond. Chapter Three extends the analysis of exchange coupling in Chapter Two to include the (cyclam)Co[([mu]-Cl)U(Me2Pz)4]2 cluster. As in the Cu(II) case, Co(II) has a single unpaired electron (S = 1/2), however this unpaired electron resides in a dz2 orbital and is therefore oriented directly along the superexchange pathway. This provides a significantly better magnetic exchange pathway leading to the strongest magnetic coupling of the series. Chapter Four deviates briefly from the pursuit of molecular magnets to study a series of multinuclear clusters formed from the activation of the 3,5-dimethylpyrazolate anion by uranium(III) via two-electron reductive cleavage of the N-N bond to form 4-ketimidopent-2-ene-2-imido (kipi3- ) units, as isolated in three related tetranuclear uranium cluster compounds, two of which are mixed valent. The kipi3- ligand represents an exotic latecomer to the acetylacetonato (acac- ) ligand family. Unlike the related and widely-utilized [beta]-diketimido (nacnac- ) ligands, kipi3- can be represented as containing both imido and ketimido functionalities. Thus, it provides a true nitrogen-based, isoelectronic analogue of acac-, a ligand that has played a long and vital role in coordination chemistry. Chapter Five turns from the synthesis of exchange coupled clusters to mononuclear species. Drawing on the model of f-element anisotropy presented in Chapter One, the trigonal prismatic complex U(Ph2BPz2)3 was chosen for study. Ac magnetic susceptibility measurements performed on it demonstrate the presence of slow magnetic relaxation under zero applied dc field. Analysis of both the temperature and frequency dependence of the ac susceptibility indicate a temperature regime (T> ̃3 K) where Arrhenius behavior dominates the relaxation processes, leading to a spin relaxation barrier of Ueff = 20 cm-1. The dc field dependence of the relaxation time is studied to reveal evidence of quantum tunneling processes occurring at lower temperatures. The results represent the first example of an actinide complex displaying single-molecule magnet behavior and confirm the general strategy for identifying further uranium(III)-based single-molecule magnets by concentrating ligand field contributions above and below the equatorial plane of an axially-symmetric coordination complex. Chapter Six builds on the results presented in Chapter Five to characterize the related complex the trigonal prismatic complex U(H2BPz2)3. This tricapped trigonal prismatic complex is characterized by single crystal x-ray diffraction and ac magnetic susceptibility measurements. The ac susceptibility data demonstrate the presence of multiple processes responsible for slow magnetic relaxation. Out-of-phase signals observed at ac switching frequencies between 1 and 1500 Hz in dc fields of 500-5000 Oe indicate a thermal relaxation barrier of ca. 8 cm-1 for the molecule, with a temperature-independent process taking over at the lowest temperatures probed. Significantly, an unprecedented, slower relaxation process becomes apparent for ac switching frequencies between 0.06 and 1 Hz, for which a monotonic increase of the relaxation time with applied dc field suggests a direct relaxation pathway.

Author: Yuanzhi Xu
Publisher: Walter de Gruyter GmbH & Co KG
ISBN: 3110620103
Category : Science
Languages : en
Pages : 499

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Book Description
The book presents principles of electron magnetic resonance from a chemist's point-of-view, covering g-tensor theory, isotropical hyperfine structure, anisotropical hyperfine structure and fine structure of spectrum, and relaxation theory. Detailed explanations on quantitative determination of paramagnetic species are given to address readers' difficulties. Written as a physical chemistry graduate textbook, it is also suitable for industry users.

Author: Robert James Elliott
Publisher:
ISBN:
Category : Magnetism
Languages : en
Pages : 256

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Book Description

Author: Cristiano Benelli
Publisher: John Wiley & Sons
ISBN: 3527335404
Category : Science
Languages : en
Pages : 464

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Book Description
This first introduction to the rapidly growing field of molecular magnetism is written with Masters and PhD students in mind, while postdocs and other newcomers will also find it an extremely useful guide. Adopting a clear didactic approach, the authors cover the fundamental concepts, providing many examples and give an overview of the most important techniques and key applications. Although the focus is one lanthanide ions, thus reflecting the current research in the field, the principles and the methods equally apply to other systems. The result is an excellent textbook from both a scientific and pedagogic point of view.

Author: J. M. D. Coey
Publisher: Cambridge University Press
ISBN: 1139486926
Category : Science
Languages : en
Pages : 632

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Book Description
Covering basic physical concepts, experimental methods, and applications, this book is an indispensable text on the fascinating science of magnetism, and an invaluable source of practical reference data. Accessible, authoritative, and assuming undergraduate familiarity with vectors, electromagnetism and quantum mechanics, this textbook is well suited to graduate courses. Emphasis is placed on practical calculations and numerical magnitudes - from nanoscale to astronomical scale - focussing on modern applications, including permanent magnet structures and spin electronic devices. Each self-contained chapter begins with a summary, and ends with exercises and further reading. The book is thoroughly illustrated with over 600 figures to help convey concepts and explain ideas clearly. Easily digestible tables and data sheets provide a wealth of useful information on magnetic properties. The thirty-eight principal magnetic materials, and many more related compounds, are treated in detail.