1 / 22

Hannes Krüger 1 , V á clav Pet říč ek 2 , Volker Kahlenberg 1

A phase transition in Ca 2 Fe 2 O 5 with coexistence of a 3d and a (3+1)-dimensional phase. Hannes Krüger 1 , V á clav Pet říč ek 2 , Volker Kahlenberg 1. 1 Institute of Mineralogy and Petrography, University of Innsbruck

tal
Download Presentation

Hannes Krüger 1 , V á clav Pet říč ek 2 , Volker Kahlenberg 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. A phase transition in Ca2Fe2O5 with coexistence of a 3d and a (3+1)-dimensional phase Hannes Krüger1, Václav Petříček2, Volker Kahlenberg1 1Institute of Mineralogy and Petrography, University of Innsbruck 2Institute of Physics, Academy of Sciences of the Czech Republic, Prague

  2. The Ca2(Fe1-xAlx)2O5 solid solution series ambient conditions elevated pressure x=0.28 Ca2Fe2O5 (Srebrodolskite) C2F x=0 Imma(00g)s00 above 710°C Ca2FeAlO5 (Brownmillerite) C4AF x=0.5 Taylor (1997) Kahlenberg et al. (2000) Redhammer et al. (2004) Fukuda & Ando (2002) Berastegui et al. (1999) Krüger & Kahlenberg (2005) Ca2Al2O5 C2A x=1 x=0.7 Pnma I2mb

  3. Basic building units of brownmillerite-type structures 1) Layers of corner-sharing FeO6 octahedra Ca2Fe2O5 at room conditions. Pnma a c c b

  4. a R c Basic building units of brownmillerite-type structures 2) zweier single chains of distorted FeO4 tetrahedra Ca2Fe2O5 at room conditions. Pnma L R/L disordered as in Imma

  5. Pnma L R b a

  6. c* (1kl) 827(5)°C Main Reflections indexed with a=5.493(1), b=15.037(3), c=5.651(1)Å Space group: Imma b* c* (0kl) b* Satellite reflections indexed with q=(0,0,0.588(2)) (3+1)-dimensional Superspace group: Imma(00)s00

  7. Fe2 Fe2' O3 O3' The superspace mirrorplane Imma(00)s00 glide vector ½ along x4 Positions of O3-O3' and Fe2-Fe2' should not be occupied in any physical space section of the (3+1)-dimensional model Fe2 and O3 have to be defined on ½ of the period in x4 Lambert et al. (2002)

  8. x1-x4 sections of the 4-dimensional Fobs synthesis Fe2, x2=0.25, x3=0.569 O3, x2=0.25, x3=0.626 x4 x4 x1 x1

  9. „t-map“ (physical space section) at t=0, x2=0.25, calculated from 4-dimensional Fobs synthesis L L R L R L R R L R

  10. DTA measurement Ca2Fe2O5, 5K/min, 100 µl Pt-crucible, 95.39mg sample Heat Flow [µV] Temperature [°C]

  11. Reconstructed reciprocal space, measured at 697(5)°C Ca2Fe2O5 Reflections h+k+l ≠ 2n and Satellites are present! c* (1kl) This is observed for a temperature range of (~20K) b*

  12. Facts • PnmaPnma + Imma(00)s00Imma(00)s00 • only one thermal effect in DTA • can be indexed with P cell (continuous with t) + 1 q-vector • temperature gradient in sample <7K • all attempts in primitive superspace groups failed Exclusive sets of Reflections Pnma hkl0: h+k+l ≠ 2n Imma(00)s00 hklm: m ≠ 0

  13. 688°C 709°C average I/(I) of 182 satellite reflections, (hklm,m≠0):h+k+l=2n average I/(I) of 113 P-reflections, (hkl0):h+k+l≠2n

  14. Refinement in Jana2000 with a „two-phase model“ Integration: I-centred lattice, with q=(0,0,) + hkl0: h+k+l ≠ 2n multiphase refinement (via twinning option) both phases are required to have the same number of dimensions calculation of combined structure factor:

  15. Conclusions Pnma and Imma(00)s00 phases of Ca2Fe2O5 are coexisting in a range of 20K This can be handled as a special case of multiphase refinement in Jana2000 To do: experiments at higher temperatures (up to 1400°C) Satellite darkfield HT TEM Substitution Fe/Al

  16. Acknowledgements Waltraud Wertl Eduardo Hernandez Bocanegra Karen Friese Juan Manuel Perez-Mato Michael Czank Thank you for your attention

  17. Pnma L R R R b I2mb a

  18. Refinement 2 Crenel-functions, occupation of Fe2, O3 (2 parameters) Harmonic modulation functions (positional modulation): Fe1 in x (1 par.) Ca in x (2 par.) O1 in x, y (3 par.) O2 in x (2 par.) Equivalent reflections used: 934 (360 main, 574 satellites) Parameters refined: 43 Rw (all; main; sat): 0.055; 0.053; 0.059 Acta Crystallogr.B61, 656-662

  19. DTA-Experiment Ca2Fe2O5 2 thermal effects: T1=443°C 0.2 J/g Néel temperature Takeda et al. (1968) T2=688°C 0.5 J/g structural phase transition Imma or I2mb Berastegui et al. (1999) incommensurate? Redhammer et al. (2004) T2 T1

  20. Experimental setup (single crystal X-ray diffraction) Diffractometer: Stoe IPDS-II, 2 circle Heating method: Heated N2-stream Temperature: 827(5)°C Crystal size: 0.18x0.18x0.06 [mm] Absorption Correction: integration, using 8 indexed faces Radiation: Mo K max(°): 29.31 Measured Reflections Main: 2208 Satellite: 3932 Rint: 0.057

More Related