Dimorphie von SrTa4O11 ‐ ein Schritt von der tetragonalen Bronzestruktur zur Struktur von CaTa4O11

Bayer, E.; Gruehn, R.

doi:10.1002/zaac.19835071218

Cited by 9 publications

(3 citation statements)

References 9 publications

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“…The X-ray powder diagram for the sample of SrTa4Oll studied here is in agreement with the data of Bayer & Gruehn (1983). As no single crystals were available, the crystal structure was derived using Rietveld's (1969) The structure of SrTa4Oll consists of layers of pentagonal bipyramids sharing edges (Fig.…”

Section: Commentsupporting

confidence: 66%

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SrTa4O11: a Rietveld Refinement Using Neutron Powder Diffraction Data

Heunen¹,

IJdo²,

Helmholdt³

1995

Acta Crystallogr C

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Section: Commentsupporting

confidence: 66%

“…We report here the crystal structure of SrTa4Ol~. SrTa4Oll was prepared at low temperature by Bayer & Gruehn (1983, 1984. From X-ray diffraction patterns it was concluded that it is isostructural with CaTa4Oll (Jalmberg, 1970;Isobe, Marumo, Iwai & Kimura, 1975) but details of the structure were not known.…”

Section: Commentmentioning

confidence: 99%

SrTa4O11: a Rietveld Refinement Using Neutron Powder Diffraction Data

Heunen¹,

IJdo²,

Helmholdt³

1995

Acta Crystallogr C

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“…These materials are not based solely on corner-sharing octahedra, but are comprised of alternating layers of distorted edge-sharing TaO 7 or NbO 7 polyhedra which are corner-connected to layers containing regular TaO 6 or NbO 6 octahedra. The larger, lower valancy cations are incorporated into the layers with the regular octahedra and, in addition to Ag + , Na + and Ca 2+ , the cations Cu + [10,11], Sr 2+ [12], and La 3+ [13] are compatible with this structure, although the presence of La 3+ requires charge-balancing by replacing some Ta 5+ with Zr 4+ . The majority of known phases with the natrotantite structure are formed with Ta 5+ .…”

Section: Introductionmentioning

confidence: 99%

Structural phase transitions in the Ag2Nb4O11–Na2Nb4O11 solid solution

Woodward¹,

Lees²,

Thomas³

2012

Journal of Solid State Chemistry

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The phase transitions between various structural modifications of the natrotantite-structured system xAg 2 Nb 4 O 11 -(1-x)Na 2 Nb 4 O 11 have been investigated and a phase diagram constructed as a function of temperature and composition. This shows three separate phase transition types: (1) paraelectricferroelectric, (2) rhombohedral -monoclinic and (3) a phase transition within the ferroelectric rhombohedral zone between space groups R3c and R3. The parent structure for the entire series has space group R 3 c. Compositions with x > 0.75 are rhombohedral at all temperatures whereas compositions with x < 0.75 are all monoclinic at room temperature and below. At x = 0.75, rhombohedral and monoclinic phases coexist with the phase boundary below room temperature being virtually temperature-independent. The ferroelectric phase boundary extends into the monoclinic phase field. No evidence was found for the R3-R3c phase boundary extending into the monoclinic phase field and it is concluded that a triple point is formed.

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