Abstract
During the course of the last 35 years, Mössbauer Effect Spectroscopy (MES) has been well established as a powerful measurement technique in both solid state physics and chemistry [1, 2, 3, 4, 5]. Because of the existence of so many excellent reviews of MES, we will only give a brief sketch of the basics needed to understand the use of the technique, in particular as applied to cluster research.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
H. Wegener, Der Mössbauer Effect und seine Anwendung in Physik und Chemie,Mannheim (1965).
V. I. Goldanskii and R. H. Herber (eds.), Chemical Applications of Mössbauer Spectroscopy,Academic Press, New York (1968).
P. Gütlich, R. Link, and A. Trautwein (eds.), Mössbauer Spectroscopy and Transition Metal Chemistry,Springer-Verlag, Berlin (1978).
B. V. Thosar, P. K. Iyengar, S. C. Bhargava and J. K. Srivastava, Advances in Mössbauer Spectroscopy,Studies in Physical and Theoretical Cherílistry, Elsevier Scientific Publ. Co., Amsterdam (1983).
D. L. Nagy, K. Lázár and Zs. Kajcsos, ’Applications of the Mössbauer Effect’, Proc. Intern. Conf. Appl. Möss. Spectr,J.C. Baltzer AG, Bazel (1989).
G. K. Shenoy and F. E. Wagner, Mössbauer Isomer Shifts,North-Holland, Amsterdam (1978).
J. W. A. van der Velden, Ph.D. Thesis, University of Nijmegen, The Netherlands (1983).
M. P. A. Viegers, Ph.D. Thesis, University of Nijmegen, The Netherlands (1976).
H. H. A. Smit, Ph.D. Thesis, University of Leiden, The Netherlands (1988).
H. H. A. Smit, R. C. Thiel, L. J. de Jongh, G. Schmid and N. Klein, Solid State Commun. 65(1988) 915.
A. M. van der Kraan, Hyperfine Int. 40(1988) 211.
F. M. Mulder, T. A. Stegink, R. C. Thiel, L. J. deJongh, and G. Schmid, Nature 867(1994) 716.
F. M. Mulder, R. C. Thiel, T A. Stegink, L. J. deJongh, P. Gubbens and G. Schmid, to be published.
R. V. Parish, L. S. Moore, A. J. J. Dens, D. M. P. Mingos and D. J. Sherman, J. Chem. Soc. Dalton Trans. (1989) 539.
H. H. A. Smit, P. R. Nugteren, R. C. Thiel and L. J. de Jongh, Physica B153(1988) 33.
F. A. Vollenbroek, Ph.D. Thesis, University of Nijmegen, The Netherlands (1979).
W. Bos, R. P. F. Kanters, C. J. van Halen, W. P. Bosman, H. Behm, J. M. M. Smits, P. T. Beurskens, J. J. Bour and L. H. Pignolet, J. Organometallic Chem. 307(1986) 385.
R. C. Thiel, M. W. Dirken, and R. Zanoni, Proceedings ICAME Budapest ’89: Applications of the Mössbauer Effect,J. C. Baltzer, Bazel (1990), p. 1729.
A. M. van der Kraan and J. W. Niemandsverdriet, in G. J. Long and J. G. Stevens (eds.), industrial Applications of the Mössbauer Effect,Plenum Press, New York, London (1986), p. 609.
J. G. Stevens and V. E. Stevens (eds.), Mössbauer Effect Data Index,Adam Hilger, London (1972), p. 180.
G. Schmid, B. Morun, and J.-O. Malm, Angew. Chem. Int. Ed. Engl. 28(1989) 778.
W. N. Delgass, G. L. Hallen, R. Kellerman and J. H. Lunsford, in Spectroscopy in Heterogeneous Catalysis,Academic Press, New York (1979), p. 132.
F. J. Berry, in G. J. Long (ed.), Mössbauer Spectroscopy Applied to Inorganic Chemistry,Vol. 1, Plenum Press, New York (1984), p. 391.
D. Schroeer, R. F. Marzke, D. J. Erikson, S. W. Marshall and R. M. Wilenzick, Phys. Rev. B2(1970) 4414.
M. P. A. Viegers and J. M. Trooster, Phys. Rev. B15(1977) 72.
F. A. Vollenbroek, P. C. P. Bouten, J. M. Trooster, J. P. van den Berg and J. J. Bour, Inorg. Chem. 17(1978) 1345.
F. A. Vollenbroek, J. J. Bour, J. M. Trooster and J. W. A. v.d. Velden, J. C. S. Chem. Com. (1978) 907.
G. Schmid, R. Pfeil, R. Boese, F. Bandermann, S. Meyer, G. H. M. Callis and J. W. A. v.d. Velden, Chem. Ber. 114(1981) 3634.
G. Schmid, N. Klein, L. Korste, U. Kreibig and D. Schönauer, Polyhedron7 (1988) 605.
G. Schmid, N. Klein, L. Korste, U. Kreibig and D. Schönauer, The methylated version of Au55 Au55-tolyl has been prepared by G. Schmid
31P NMR [31], electrical conductivity [31, 32], and MES [33, 34] results have been reported.
M. P. J. van Staveren, Ph.D. Thesis, University of Leiden, The Netherlands (1989).
M. P. J. van Staveren, H. B. Brom and L. J. de Jongh, Physics Reports 208(1991) 1.
R. C. Thiel, R. E. Benfield, R. Zanoni, H. H. A. Smit, and M. W. Dirken, Structure and Bonding 81: Structures and Biological Effects(1993) 1–39.
F. M. Mulder, E. A. van der Zeeuw and R. C. Thiel, Solid St. Comm. (accepted for publication).
M. Born, Atomtheorie des festen Zustandes,Leipzig (1923).
E. W. Montroll, J. Chem. Phys. 18(1950) 183.
S. W. Marshall and R. M. Wilenzick, Phys. Rev. Utters 16(1966) 219.
R. C. Thiel, Z. Phys. 200(1967) 227.
C. Kittel, Introduction to Solid State Physics,5th edition, J. Wiley & Sons, New York (1976).
J. S. van Wieringen, Phys. Lett. 26A(1968) 370.
J. Baak and H. B. Brom, Proc. Intl. Symposium on the Physics and Chemistry of Finite Systems: From Clusters to Crystals,Richmond, VA (1991) (in press).
G. Goll, H. v. Löhneysen, U. Kreibig and G. Schmid, Z. Phys. D20(1991) 329.
H. B. Brom, J. Baak, L. J. de Jongh, F. M. Mulder, R. C. Thiel and G. Schmid, Z. Phys. D(1992) (accepted for publication).
J. Baak, H. B. Brom, L. J. de Jongh and G. Schmid, Z. Phys. D(1992) (accepted for publication).
M. C. Fairbanks, R. E. Benfield, R. J. Newport and G. Schmid, Solid State Commun. 74(1990) 431.
M. A. Marcus, M. P. Andrews, J. Zegenhagen, A. S. Bommannavar and P. Montano, Phys. Rev. B42(1990) 3312.
A. Balerna, E. Bernieri, P. Picozzi, A. Reale, S. Santucci, E. Burattini and S. Mobilio, Phys. Rev. B31(1985) 5058.
D. L. Williamson, in G. K. Shenoy and F. E. Wagner (eds.), Mössbauer Isomer Shifts,North-holland, Amsterdam (1978), Ch. 6b.
P. H. Citrin and G. K. Wertheim, Phys. Rev. B27(1983) 3176.
M. C. Desjonquère and F. Cyrot-Lackmann, J. Phys. 36(1975) L45.
P. H. Citrin, G. K. Wertheim and Y. Baer, Phys. Rev. B27(1983) 3160.
J. J. Steggerda, J. G. M. van der Linden and J. E. F. Gootzen, Mat. Res. Soc. Symp. Proc. 272(1992), 127–132.
F. van der Woude and A. R. Miedema, Solid State Commun. 39(1981) 1097.
A. R. Miedema, F. R. de Boer and P. F. de Chatel, J. Phys. F3(1973) 1558.
Ph. Buffat and J.-P. Borel, Phys. Rev. A13(1976) 2287.
P. R. Couchmann and C. L. Ryan, Phil. Mag. 37(1978) 369.
C. Solliard, Sol. St. Commun. 51(1984) 947.
C. Solliard and M. Flueli, Surface Science 156(1985) 487.
P. R. Couchmann, Phil. Mag. A40(1979) 637.
P. Labastie and R. L. Whetten, Phys. Rev. Lett. 65(1990) 1567.
I. L. Garzon and J. Jellinek, Z. Phys. D20(1991) 235.
M. Blume and J. A. Tjon, Phys. Rev. 165(1968) 446.
M. J. Clauser, Phys. Rev. B3(1971) 3748.
P. Sykes, A Guidebood to Mechanisms in Organic Chemistry,Longmans (1963).
N. S. Isaacs, Physical Organic Chemistry,Longman Scientific (1987).
A. Simopoulos and G. Vogl, Phys. Stat. Sol. (B) 59(1973) 505–516.
D. Van der Putten, H. B. Brom, J. Witteveen, L. J. de Jongh and G. Schmid, Supplement to Z. Phys. D26(1993) 21–23.
H. Th. Le Fever, F. J. van Steenwijk and R. C. Thiel, Physica86–88B (1977) 1269.
At the moment that this manuscript was completed, the first MES experiments using 61 Ni on a series of nickel cluster compounds was just commencing at the University of Mainz.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1994 Kluwer Academic Publishers
About this chapter
Cite this chapter
Thiel, R.C., Smit, H.H., De Jongh, L.J. (1994). Application of Mössbauer Effect Spectroscopy to Cluster Research. In: De Jongh, L.J. (eds) Physics and Chemistry of Metal Cluster Compounds. Physics and Chemistry of Materials with Low-Dimensional Structures, vol 18. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-1294-7_6
Download citation
DOI: https://doi.org/10.1007/978-94-015-1294-7_6
Publisher Name: Springer, Dordrecht
Print ISBN: 978-90-481-4369-6
Online ISBN: 978-94-015-1294-7
eBook Packages: Springer Book Archive