II - Selected Applications of Mössbauer Spectroscopy Zero and applied field Mössbauer Woodward&Karen, Inorganic Chemistry 42, 1121 (2003)
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Mossbauer Spectroscopy Applied to Inorganic Chemistry
Mossbauer spectroscopy applied to inorganic chemistry (Modern inorganic chemistry) ISBN 978-1-4899-0462-1 (eBook) DOI 10 1007/978-1-4899-0462-1
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Mössbauer spectra give quantitative information on “hyperfine interactions,” which are small often be used reliably as “fingerprints” to identify the different local chemical environments Spectroscopy Applied to Inorganic Chemistry, Vols 1-
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II - Selected Applications of Mössbauer Spectroscopy Zero and applied field Mössbauer Woodward&Karen, Inorganic Chemistry 42, 1121 (2003)
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Mössbauer effect and chemical bonding in transition metal com- plexes 89 J Danon favourable here, however, because one can apply an external magnetic field magnitude of the Mössbauer resonance effect, e, for a number of inorganic
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Gütlich · Bill
Trautwein
ISBN 978-3-540-88427-9
- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Philipp GütlichEckhard Bill
Alfred X. Trautwein
- - - - - - - - - - - - - - - Philipp GütlichEckhard Bill
Alfred X. Trautwein
Spectroscopy and
Transition Metal
Chemistry
Fundamentals and Application
Transition Metal Chemistry
continued to develop. The authors now present a state-of-the art book which consists of is based on a book published in 1978 in the Springer series 'Inorganic Chemistry Concepts' by P. Gütlich, R. Link and A.X. Trautwein. The second part covers useful practical aspects of measurements, and the application of the techniques to many problems of materials cha racterization. The update includes the use of synchroton radiation and many instructive and illustrative examples in fields such as solid state chemistry, biology and physics, materials and the geosciences, as well as industrial applications. Special chapters on magnetic relaxation phenomena (S. Morup) and computation of hyperfine interaction parameters (F. Neese) are also included. An attached CD-ROM with more than 400 full-color PowerPoint images provides self-explanatory examples. After an initial period this supplementary material will be available at extra.springer.com The book concentrates on teaching the technique using theory as much as needed and as little as possible. The reader will learn the fundamentals of the technique and how to apply it to many problems of materials characterization. Transition metal chemistry, studied on CCoonntteennttss
and Applications" (Philipp Gütlich)2. Chemistry
3. Biology
4. Geosciences
5. Archeology
6. Industrial application
WIEN2k calculations for extended systems (Peter Blaha) Parameters of Fe-bearing Compounds (Michael Grodzicki and Stefan Lebernegg) Spectroscopy (John G. Stevens, Airat M. Khasanov, Nina F. Hall, and Irina A. Khasanova) V - "Mossbauer Spectroscopy and Transition Metal Chemistry", 1st edition Springer-Verlag, Berlin Heidelberg New York, 1978 P. Gütlich, R. Link, A. Trautwein 3. Appendix to Chapter 5: (Frank Neese and Taras Petrenko) of Nuclear Inelastic Scattering TheoryLinear Response Theory and Mathematical DevelopmentContents
Part I
Philipp Gütlich
Lecture series
Acknowledgement
Introduction
Experimental Resonance Conditions
Sharpness of resonance
Recoil Effect
Cross-section for Resonant Absorption
Comparison Between Electronic and Nuclear TransitionsLattice dynamics
Isomer Shift
Electric Quadrupole Splitting
Magnetic Dipole Splitting
Applications:
Transition Metal Compounds
Bioinorganic Compounds
Spin Crossover
Molecular magnetism
Industrial Applications
Phase Transitions
MIMOS on Mars
MIMOS on Earth
Contents
Part II
Contributions from different laboratories
1. Physics
Title of contribution Authors File name
Determination of the size of Fe nano-
grains in AgJ. Balogh,
D. Kaptás,
L. F. Kiss, I. Vincze,
A. Kovács,
M. Csontos,
G. Mihály Balogh_Fe nano-grains.ppt
Independent magnetic ordering of the Er
and Fe sublattices in ErFe 6 Sn 6J.M. Cadogan and
D.H. Ryan
Cadogan_Magnetism of
ErFe6Sn6.ppt
Comparing erbium moments derived from
166neutron diffraction
D.H. Ryan,
J.M. Cadogan
Cadogan_166Er MS of Er3Ge4.ppt
The first-order magnetostructural
transition in Gd 5 Sn 4D.H. Ryan
Cadogan_119Sn MS in Gd5Sn4.ppt
Quantitative analysis of iron ore
processing J.M. CadoganCadogan_Iron ore processing.ppt
169Cadogan_169Tm MS of Tm
alloys.pptYb valence in YbMn
2 (Si,Ge) 2J.M. Cadogan,
D.H. Ryan
Cadogan_170Yb MS of
YbMn2(SiGe)2.ppt
Spectroscopy (ILEEMS):
a useful variant for true surface studies E. De Grave,R. E. Vandenberghe
DeGrave_ILEEMS.ppt
-Phase in Fe-Cr and Fe-V SystemsS. M. Dubiel
Dubiel _sigma Phase in Fe-Cr and
Fe-V.ppt
Harmonically modulated structures
S. M. Dubiel
Dubiel_Harmonically modulated
structures.pptFerric fluorides: crystalline, amorphous
and nanostructured statesJ. M. Greneche
Greneche_Ferric Fluorides.ppt
properties of nanocrystalline FeNiZrB andFeNiCoZrB alloys
M. Kopcewicz,
T. Kulik
Kopcewicz_Rf MS in FeNiZrB and
FeNiCoZrB alloys.ppt
Crystallization of amorphous alloys
induced by the rf magnetic fieldM. Kopcewicz Kopcewicz_Amorphous alloys.ppt
Nanocrystalline alloys:
I. Hyperfine Interactions M. Miglierini et al.
Miglierini_Nanocrystalline
alloys.part1.pptNanocrystalline alloys:
II. Hyperfine Interactions M. Miglierini et al.
Miglierini_Nanocrystalline
alloys.part2.pptImaging the Magnetic Spin Structure of
Roehlsberger_Spin Structure in Thin
Films .ppt
T.Shinjo Shinjo_Multilayers.ppt
Ditellurides of 3d transition metals
studied by 57Fe and
125spectroscopy
P. Fornal, J. Stanek
Stanek_57Fe and 125Te of
ditellurides.pptRelativistic Effects in Gold
Chemistry. Part 1
J. Stanek
Stanek_Relativistic Effects in
Au.part1.ppt
Relativistic Effects in Gold
Chemistry. Part 2
J. Stanek
Stanek_Relativistic Effects in
Au.part2.ppt
Nanosized magnetic clusters and their
relation to magnetoresistance in FeCr 2 S 4 spinelZ. Klencsár,
E. Kuzmann,
Z. Homonnay,
A. Vértes,
A. Simopoulos,
E. Devlin, G. Kallias Klencsar_Magnetoresistance inFeCr2S4 spinel.ppt
Contents
2. Chemistry
field to explore the low temperature spin structure in a molecular layered ferrimagnet A. Bhattacharjee,P. Gütlich et al.
Bhattacharjee_Layered
Ferrimagnet.ppt
Metal-to-metal electron transfer and
magnetic interactions in a mixed-valencePrussian blue analogue
A. Bhattacharjee,
P. Gütlich et al.
Bhattacharjee_Prussian Blue
Analogue.ppt
Fe(II) High Spin ļ Low Spin Transition in
[FeII(isoxazole) 6 ](X) 2 , X = BF 4 , ClO 4A. Bhattacharjee,
P. Gütlich et al.
Bhattacharjee_Spin crossover.ppt
Thermal and light-induced spin transition
in iron compounds P. Gütlich et al. Guetlich_Spin crossover.ppt oxygen with solid ȕ-Fe II phthalocyanine E. Kuzmann,Z. Homonnay,
A. Vértes,
S. Li, H. Yin,
Y. Wei,
A. Nath, X. Chen,
J. LiKuzmann_Fe_phthalocyanine.ppt
157 T internal magnetic field in
Fe[C(SiMe
3 3 2 compound at 20KE. Kuzmann,
R. Szalay,
A. Vértes,
Z. Homonnay,
I. Pápai, P. de
Châtel, L. Szepes
Kuzmann_Field in
Fe[C(SiMe3)3]2.ppt
Nuclear inelastic scattering on spin
crossover complexesH. Paulsen and
A.X. Trautwein
Luebeck_NIS_Spin crossover.ppt
Pressure-induced changes of the
vibrational modes of spin-crossover complexes studied by nuclear resonance scattering of synchrotron radiationA.X. Trautwein,
H. Paulsen,
H. Winkler
H. Giefers,
G. Wortmann
H. Toftlund
J.A. Wolny
A.I. Chumakov,
O. Leupold
Luebeck_NIS_Spin
crossover_Pressure.pptPhotoswitching of nitroprussides V. Rusanov,
Sv. Stankov,
H. Paulsen,
A. X. Trautwein
Luebeck_Nitroprussides.ppt
Trinuclear mixed-valent oxo-centered iron
complexes: fully localised, partially and fully delocalised valenciesR.W. Saalfrank,
A. Scheurer,
V. Schünemann,
A.X. Trautwein
Luebeck_Trinuclear mixed
valent.pptUnconventional valence transition in
biferrocenium charge-transfer complexesT. Mochida
Mochida_Biferrocenium.ppt
Exotic dimers part one: the case of the
vanishing hyperfine fieldW. M. Reiff,
J.S. Miller,
J. H. Zhang and
D. O'Hare
Reiff_Donor Acceptor.ppt
Exotic dimers part two: a high-spin
ferrous dimer that exhibits genuine spontaneous long range 3-magnetic order in zero field and metamagnetismW. M. Reiff,
M. Feist, and
E. Kemnitz
Reiff_HS Ferrous Dimer.ppt
Direct spectroscopic evidence of orbital
magnetism of essentially free ion magnitude in a rigorously linear two- coordinate high-spin Fe (II) compoundW. M. Reiff,
A. M. LaPointe, and
C. E. Schulz Reiff_Largest magnetic field.ppt
spectroscopy investigations of magnetic frustration in certain classic Werner complexes above and below 1KW. M. Reiff,
L. Tákács,
M. J. Kwiecien
Reiff_Magnetic frustration.ppt
Reversible, reductive, topotactic metal ion
insertion chemistry of ferric networks àLa Chimie Douce
W. M. Reiff,
L. Tákács,
J. Tákács,
K. Lázár,
C. C. Torardi Reiff_Metal Ion Insertion.ppt
Spin states of highly deformed iron(III)
porphyrin complexes studied by 57Fe