Chemical Mössbauer Spectroscopy

Chemical Mössbauer Spectroscopy by R.H. Herber.

The past twenty five years - roughly the period from 1960 to 1985 - have been by all measures among the most exciting and challenging times of our science. The increasing sensitivity of chemical instrumentation, the introduction of the routine use of computers for data reduction and of microprocesso...

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Bibliographic Details
Main Author: Herber, R.H (Author)
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: New York, NY : Springer US : Imprint: Springer, 1984.
Edition:1st ed. 1984.
Series:Springer eBook Collection.
Subjects:
Analytical chemistry.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.

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505 0 |a I. Aspects of Organoiron Mossbauer Spectroscopy -- The Mossbauer Experiment -- Isomer Shift -- Electric Quadrupole Interaction -- Oxidation State and Bonding -- Six Coordination -- Five Coordination -- Four Coordination -- Organoiron Complexes -- Acknowledgments -- II. Spin Transition in Iron Compounds -- Fe(phen)2(NCS)2 -- Fe(2-pic)3X2·Sol -- The EILE Model (Elastic Interaction and Lattice Expansion) -- Effect of Applied Pressure -- LIESST (Light Induced Spin State Trapping) -- Conclusion -- Acknowledgment -- III: Zero and High Field Mossbauer Spectroscopy Studies of the Magnetic Ordering Behavior of One, Two and Three Dimensional Systems -- Hyperfine Interactions -- Single Ion Zero Field Splitting -- Intensities-Single Crystal Studies -- High Field Massbauer Spectra -- Some Recent Applications -- Conclusion and Acknowledgment -- IV: A Mossbauer Effect and Magnetic Study of Fe2(SO4)3 and Fe2(MoO4)3, Two L-type Ferrimagnets -- Crystal and Magnetic Structures -- Mossbauer-Effect Spectral Results -- Magnetic Susceptibility Studies -- Magnetic Ordering Model -- Acknowledgments -- V: Biomineralization of Fe3O4 in Bacteria -- Mossbauer Spectroscopy of Ferritin -- Mossbauer Spectroscopy of Magnetotactic Bacteria -- Conclusion -- Acknowledgment -- VI: Mossbauer Spectroscopy of Intercalation Compounds -- Structure and Chemistry of Intercalated Materials -- General Aspects of Spectroscopy -- Studies of Structure and Bonding -- Lattice Dynamical Properties -- Magnetic Phenomena -- Summary and Acknowledgments -- VII: Hot-Atom Chemistry and Trapped Species -- After Effects Associated with Nuclear Decay -- Range Involved in After Effects -- Radical Species Produced around the Decaying Atom -- Local Radiation Damage -- Application to Blanket Materials -- VII: Structure, Bonding, and the Mossbauer Lattice Temperature -- Fundamental Equations -- Some Applications to Inorganic Systems -- Lattice Dynamics of Organometallics -- Summary and Acknowledgments -- IX: Mossbauer Spectroscopy of Soils and Sediments -- Reviews, and General Papers -- Synthetic and Natural Single Phases -- Sediments -- Humic Acid Complexes and Ferrihydrite -- Example Soil Clays and Conclusions -- X: Mossbauer Studies of Liquid Crystals -- Abstract -- Liquid Crystals -- Mossbauer Studies in Liquid Crystals -- Conclusions and Projections -- XI: Organotin-119m Mossbauer Spectroscopy: The First Quarter Century -- Organotin Chemistry -- Tin Mossbauer Spectroscopy -- Applications -- Lattice Dynamics -- The Next 25 Years -- XII: Mossbauer Spectroscopy of Iodine -- Isomer Shift Calibration -- Chemical Bond Information -- Miscellaneous Compounds -- Linear Iodine Chains -- Radiogenic Systems -- Tellurium Halides -- Heusler Alloys -- Experiments with Implanted Sources -- Isomer Shift -- Quadrupole Splitting, Recoilles Fraction -- XIII: Mossbauer Spectroscopy of Antinomy Compounds -- Experimentation -- Applications -- Interpretation of Mossbauer Parameters -- Point Charge Models -- Molecular Orbital Calculations -- Other Models -- XIV: Rare-Earth Mossbauer Studies of Chemical Problems -- Rare Earth Mossbauer Spectroscopy -- Chemical Bonding in Rare Earth Compounds -- Lattice Vibrational Anisotropy -- Conversion Electron Mossbauer Spectroscopy -- Conclusions -- XV: Chemical Aspects of 237Np Mossbauer Spectroscopy -- Description of 237Np Mossbauer Effect -- Neptunium (VII) -- Proposed NPOCI52- Compounds -- Np(C8H8)I·xTHF -- Np(V)-Transition Metal Ion Complexes -- [(CH3)4N]2NpCl6 and [(C2H5)4N]2NpCl6 -- Convalency of Np(IV) Organometallic Compounds -- Acknowledgment. 
520 |a The past twenty five years - roughly the period from 1960 to 1985 - have been by all measures among the most exciting and challenging times of our science. The increasing sensitivity of chemical instrumentation, the introduction of the routine use of computers for data reduction and of microprocessors for instrumental control, the wide-spread utilization of lasers, and the disappearance of traditional disciplinary boundaries between scientific fields are but a few of the examples one could cite to support the introductory contention. Almost all of these developments have had their impact on the development of Mossbauer Effect Spectroscopy into a technique par excellence for the elucidation of problems in all areas of chemistry and its associated sister sciences. Indeed, because this spectroscopy is based on fundamental phenomena in nuclear physics, is described in terms of the theory of the solid state and structural chemistry, is useful in the understanding of chemical reactivity and biological phenomena, and can serve to supplement information developed by many other experimental techniques, it has provided an unparalleled opportunity for the exchange of ideas among practitioners of a very wide variety of subfields of the physical and biological sciences. The present collection of contributions is the direct result of such an interaction. 
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