Molecule-Based Magnets: Polarized Neutron Ddiffraction and Mössbauer Spectral Study of Short-Range Magnetic Correlations in the Ferrimagnetic Layered Compounds (PPh₄) [Fe^IIFe^III(ox)₃] and (NBu₄) [Fe^IIFe^III(ox)₃]

Author

Simon G. Carling
Dirk W. Visser
Dimitri Hautot
Ian D. Watts
Peter Day
Jürgen Ensling
Phillip Gütlich
Gary J. Long, Missouri University of Science and TechnologyFollow
Fernande Grandjean, Missouri University of Science and TechnologyFollow

Abstract

Short-range antifemmagnetic correlations have been studied in the layered compounds (PPh₄) [Fe^IIFe^III(ox) ₃] and (NBu₄) [Fe^IIFe^III(ox) ₃] by neutron polarization analysis and Mössbauer spectroscopy. Polarized neutron diffraction profiles obtained between 2 and 50 K on (d_20-, PPh₄) [Fe^IIFe^III(ox) ₃] show no magnetic Bragg scattering: The lack of such scattering indicates the absence of long-range magnetic order. However, a broad asymmetric feature observed at a Q of ca. 0.8 8, Å^-1 is attributed to two-dimensional shortrange magnetic correlations, which are described by a Warren function. The correlation length is ca. 50 Å, between 2 and 30 K and then decreases to ca. 20 Å, at 50 K. The Mössbauer spectra of (PPh₄) [Fe^IIFe^III(ox) ₃] and (NBu₄) [Fe^IIFe^III(ox) ₃] have been measured between 1.9 and 293 K and 1.9 and 315 K, respectively, and are very similar. The paramagnetic spectra exhibit both high-spin Fen and Fen’ doublets with relative areas which indicate a 5% and 2% excess, respectively, of F^III. The coexistence in (PPh₄) [Fe^IIFe^III(ox) ₃] between 10 and 30 K of broad sextets and doublets in the Mossbauer spectra and the paramagnetic scattering observed in the polarized neutron measurements indicate the coexistence of spin-correlated and spin-uncorrelated regions in the layers of this compound. The polarized neutron scattering profiles and the Mossbauer spectra yield the magnetic exchange correlation length and lifetime, respectively, and the combined results are best understood in terms of layers composed of random frozen, but exchange correlated domains of ca. 50 Å, diameter at the lowest temperatures, of spin-correlated domains and spin-uncorrelated regions at intermediate temperahues, and of largely spin-uncorrelated regions above the N&l temperature as determined from magnetometry. The similarity of the Mossbauer spectra of (PPh₄) [Fe^IIFe^III(ox) ₃] and (NBu₄) [Fe^IIFe^III(ox) ₃] leads to the conclusion that similar magnetic exchange correlations are present in the latter compound.

Recommended Citation

S. G. Carling et al., "Molecule-Based Magnets: Polarized Neutron Ddiffraction and Mössbauer Spectral Study of Short-Range Magnetic Correlations in the Ferrimagnetic Layered Compounds (PPh₄) [Fe^IIFe^III(ox)₃] and (NBu₄) [Fe^IIFe^III(ox)₃]," Molecules into Materials: Case Studies in Materials Chemistry-Mixed Valency, Magnetism and Super Conductivity, pp. 487 - 498, World Scientific Publishing Co., Jan 2007.

The definitive version is available at https://doi.org/10.1142/9789812706836_0035

Department(s)

Chemistry

International Standard Book Number (ISBN)

978-9812706836; 978-9812700384

Document Type

Book - Chapter

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2007 World Scientific Publishing Co., All rights reserved.

Publication Date

01 Jan 2007