Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • V. Šepelák
  • I. Bergmann
  • Armin Feldhoff
  • F. J. Litterst
  • K. D. Becker
  • J. M. Cadogan
  • M. Hofmann
  • M. Hoelzel
  • J. L. Wang
  • M. Avdeev
  • S. J. Campbell

Organisationseinheiten

Externe Organisationen

  • Karlsruher Institut für Technologie (KIT)
  • Volkswagen AG
  • Technische Universität Braunschweig
  • University of Manitoba
  • Technische Universität München (TUM)
  • University of New South Wales (UNSW)
  • Australian Nuclear Science and Technology Organisation
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Details

OriginalspracheEnglisch
Seiten (von - bis)67-71
Seitenumfang5
FachzeitschriftHyperfine Interactions
Jahrgang198
Ausgabenummer1
PublikationsstatusVeröffentlicht - Juni 2010

Abstract

The evolution of nanocrystalline n-MgFe2O4 by high-energy milling a mixture of MgO and α-Fe2O3 for periods of between 0 h and 12 h has been investigated by neutron diffraction in addition to previous Mössbauer, XRD and HRTEM measurements. Complete transformation of the milled products to n-MgFe2O4 only occurs on milling to ~8 h even though the average particle size decreases to < ~10 nm after milling for 2 h. The applied field Mössbauer spectra of n-MgFe2O4 can be well described by two subspectra representing core and shell regions with different cation distributions and spin canting angles. The neutron pattern of nanocrystalline MgFe2O4 is described well by two components comprising nanoparticles of core and shell dimensions ~7(1) nm and ~0.7(1) nm, respectively, in support of the Mössbauer core-shell model.

ASJC Scopus Sachgebiete

Zitieren

Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy. / Šepelák, V.; Bergmann, I.; Feldhoff, Armin et al.
in: Hyperfine Interactions, Jahrgang 198, Nr. 1, 06.2010, S. 67-71.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Šepelák, V, Bergmann, I, Feldhoff, A, Litterst, FJ, Becker, KD, Cadogan, JM, Hofmann, M, Hoelzel, M, Wang, JL, Avdeev, M & Campbell, SJ 2010, 'Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy', Hyperfine Interactions, Jg. 198, Nr. 1, S. 67-71. https://doi.org/10.1007/s10751-010-0243-y
Šepelák, V., Bergmann, I., Feldhoff, A., Litterst, F. J., Becker, K. D., Cadogan, J. M., Hofmann, M., Hoelzel, M., Wang, J. L., Avdeev, M., & Campbell, S. J. (2010). Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy. Hyperfine Interactions, 198(1), 67-71. https://doi.org/10.1007/s10751-010-0243-y
Šepelák V, Bergmann I, Feldhoff A, Litterst FJ, Becker KD, Cadogan JM et al. Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy. Hyperfine Interactions. 2010 Jun;198(1):67-71. doi: 10.1007/s10751-010-0243-y
Šepelák, V. ; Bergmann, I. ; Feldhoff, Armin et al. / Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy. in: Hyperfine Interactions. 2010 ; Jahrgang 198, Nr. 1. S. 67-71.
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title = "Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and M{\"o}ssbauer spectroscopy",
abstract = "The evolution of nanocrystalline n-MgFe2O4 by high-energy milling a mixture of MgO and α-Fe2O3 for periods of between 0 h and 12 h has been investigated by neutron diffraction in addition to previous M{\"o}ssbauer, XRD and HRTEM measurements. Complete transformation of the milled products to n-MgFe2O4 only occurs on milling to ~8 h even though the average particle size decreases to < ~10 nm after milling for 2 h. The applied field M{\"o}ssbauer spectra of n-MgFe2O4 can be well described by two subspectra representing core and shell regions with different cation distributions and spin canting angles. The neutron pattern of nanocrystalline MgFe2O4 is described well by two components comprising nanoparticles of core and shell dimensions ~7(1) nm and ~0.7(1) nm, respectively, in support of the M{\"o}ssbauer core-shell model.",
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TY - JOUR

T1 - Mechanosynthesis of nanocrystalline MgFe2O4-neutron diffraction and Mössbauer spectroscopy

AU - Šepelák, V.

AU - Bergmann, I.

AU - Feldhoff, Armin

AU - Litterst, F. J.

AU - Becker, K. D.

AU - Cadogan, J. M.

AU - Hofmann, M.

AU - Hoelzel, M.

AU - Wang, J. L.

AU - Avdeev, M.

AU - Campbell, S. J.

N1 - Funding Information: Acknowledgements This work is supported by the Deutsche Forschungsgemeinschaft (SPP 1415) and by a joint agreement between ANSTO and UNSW. SJC acknowledges access to the major research facilities program supported by the Commonwealth of Australia under the International Science Linkages Program. JMC acknowledges support from the Canada Research Chairs programme.

PY - 2010/6

Y1 - 2010/6

N2 - The evolution of nanocrystalline n-MgFe2O4 by high-energy milling a mixture of MgO and α-Fe2O3 for periods of between 0 h and 12 h has been investigated by neutron diffraction in addition to previous Mössbauer, XRD and HRTEM measurements. Complete transformation of the milled products to n-MgFe2O4 only occurs on milling to ~8 h even though the average particle size decreases to < ~10 nm after milling for 2 h. The applied field Mössbauer spectra of n-MgFe2O4 can be well described by two subspectra representing core and shell regions with different cation distributions and spin canting angles. The neutron pattern of nanocrystalline MgFe2O4 is described well by two components comprising nanoparticles of core and shell dimensions ~7(1) nm and ~0.7(1) nm, respectively, in support of the Mössbauer core-shell model.

AB - The evolution of nanocrystalline n-MgFe2O4 by high-energy milling a mixture of MgO and α-Fe2O3 for periods of between 0 h and 12 h has been investigated by neutron diffraction in addition to previous Mössbauer, XRD and HRTEM measurements. Complete transformation of the milled products to n-MgFe2O4 only occurs on milling to ~8 h even though the average particle size decreases to < ~10 nm after milling for 2 h. The applied field Mössbauer spectra of n-MgFe2O4 can be well described by two subspectra representing core and shell regions with different cation distributions and spin canting angles. The neutron pattern of nanocrystalline MgFe2O4 is described well by two components comprising nanoparticles of core and shell dimensions ~7(1) nm and ~0.7(1) nm, respectively, in support of the Mössbauer core-shell model.

KW - MgFeO

KW - Mössbauer

KW - Nanocrystalline

KW - Neutron diffraction

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U2 - 10.1007/s10751-010-0243-y

DO - 10.1007/s10751-010-0243-y

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AN - SCOPUS:79951554934

VL - 198

SP - 67

EP - 71

JO - Hyperfine Interactions

JF - Hyperfine Interactions

SN - 0304-3843

IS - 1

ER -

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