RE4B4O11F2 (RE = Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd4B4O11F2

Pitscheider, Almut; Enders, Michael; Huppertz, Hubert

doi:10.1515/znb-2010-1205

Cited by 7 publications

(8 citation statements)

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“…As reported for the isotypic phases RE 4 B 4 O 11 F 2 (RE = Eu, Gd, Dy) [6,7], the new compounds RE 4 B 4 O 11 F 2 (RE = Pr, Nd) also form in a wide pressure and temperature range. In many syntheses with varying pressure and temperature conditions, the desired phases RE 4 B 4 O 11 F 2 (RE = Pr, Nd) were the main products, but contained small amounts of the corresponding high-pressure rare-earth metaborates γ-RE(BO 2 ) 3 (RE = Pr, Nd) [ has been attempted several times in our group using various reaction conditions, but without any success.…”

Section: Resultssupporting

confidence: 65%

“…Here, we report about two new compounds RE 4 B 4 O 11 F 2 (RE = Pr, Nd) in this system, which are isotypic to RE 4 B 4 O 11 F 2 (RE = Eu, Gd, Dy) [6,7]. The syntheses and crystal structures of RE 4 B 4 O 11 F 2 (RE = Pr, Nd) are discussed in comparison to the isotypic compounds, and the IR spectra of both new compounds are presented.…”

Section: Introductionmentioning

confidence: 99%

“…For the chemical composition RE 4 B 4 O 11 F 2 , two different structure types were obtained by highpressure/high-temperature syntheses. In 2010, Haberer et al presented the compound La 4 B 4 O 11 F 2 [4] crystallizing in space group P2 1 /c with the lattice parameters a = 778.1 (2), b = 3573.3 (7), c = 765.7(2) pm, and β = 113.92(3) • (Z = 8). The crystal structure consists of BO 3 groups (∆) which are either isolated (∆), connected via common corners (∆∆), or connected via BO 4 tetrahedra forming the fundamental building block (FBB) 2∆ :∆ ∆ (after Burns et al [5]).…”

Section: Introductionmentioning

confidence: 99%

“…The structural motif consists of two BO 3 groups (∆) and two BO 4 tetrahedra ( ), and can be described with the fundamental building block 2∆2 :∆ ∆, which represented a novelty in borate chemistry. Later in 2010, Haberer [7].…”

Section: Introductionmentioning

confidence: 99%

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RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

Glätzle

Huppertz

2013

Zeitschrift Für Naturforschung B

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The rare-earth fluoride borates RE 4 B 4 O 11 F 2 (RE = Pr, Nd) were obtained in a Walkertype multianvil device from the corresponding rare-earth oxides and fluorides, and boron oxide. Pr 4 B 4 O 11 F 2 was obtained under high-pressure/high-temperature conditions of 8.5 GPa/1150 • C, and Nd 4 B 4 O 11 F 2 at 8 GPa and 1300 • C. The single-crystal structure determinations revealed that both compounds are isotypic to RE 4 B 4 O 11 F 2 (RE = Eu, Gd, Dy), crystallizing in the space group C2/c (Z = 4) with the parameters a = 1397.3(3), b = 472.78(9), c = 1400.2(3) pm, β = 91.1(1) • , V = 0.9248(3) nm 3 , R 1 = 0.0444, and wR 2 = 0.0539 (all data) for Pr 4 B 4 O 11 F 2 , and a = 1389.1(3), b = 471.2(1), c = 1394.4(3) pm, β = 91.1(1) • , V = 0.9125(3) nm 3 , R 1 = 0.0286, and wR 2 = 0.0601 (all data) for Nd 4 B 4 O 11 F 2. The structure type of Gd 4 B 4 O 11 F 2 contains BO 4 tetrahedra as well as BO 3 groups connected via common corners. Here, we report about the crystallographic characterization of both compounds in comparison to the isotypic phases and discuss their IR spectra.

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Section: Resultssupporting

confidence: 65%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

Glätzle

Huppertz

2013

Zeitschrift Für Naturforschung B

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“…Up to now, high-temperature syntheses under ambient pressure conditions did not lead to any dysprosium or holmium fluoride borates. In the last years, a breakthrough was achieved in the system RE-B-O-F via high-pressure/high-temperature experiments leading to the compounds Dy 3 (BO 3 ) 2 F 3 [5], Dy 4 B 4 O 11 F 2 [6] and RE 2 (BO 3 )F 3 (RE = Dy, Ho) [7], which are built up exclusively of isolated trigonalplanar [BO 3 ] 3− groups. With the syntheses of the compounds RE 5 (BO 3 ) 2 F 9 (RE = Er -Yb) [8 -10], three new rare earth fluoride borates were added to the known RE-B-O-F phases.…”

Section: Introductionmentioning

confidence: 99%

High-pressure Syntheses and Characterization of the Rare Earth Borates RE5(BO₃)₂F₉ (RE=Dy, Ho)

Hinteregger¹,

Gerhard²,

Hofer³

et al. 2013

Zeitschrift Für Naturforschung B

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The new rare earth fluoride borates RE 5 (BO 3) 2 F 9 (RE = Ho, Dy) were synthesized under highpressure/high-temperature conditions of 1.5 GPa, 1250 • C for Dy 5 (BO 3) 2 F 9 and 2.5 GPa, 1200 • C for Ho 5 (BO 3) 2 F 9 in a Walker-type multianvil apparatus from the corresponding rare earth oxides, rare earth fluorides, and boron oxide. The single-crystal structure determinations have revealed that both compounds are isotypic to the known rare earth fluoride borates RE 5 (BO 3) 2 F 9 (RE = Er, Tm, Yb). The new fluoride borates crystallize monoclinically in the space group C2/c (Z = 4) with the lattice parameters a = 2046.7(4), b = 615.9(2), c = 829.6(2) pm, β = 100.1(1) • for Dy 5 (BO 3) 2 F 9 and a = 2039.5(4), b = 612.7(2), c = 827.1(2) pm, β = 100.2(1) • for Ho 5 (BO 3) 2 F 9. Three crystallographically different nine-fold coordinated rare earth cations can be identified in the crystal structure. All boron atoms build up isolated trigonal-planar [BO 3 ] 3− groups. In addition to the Raman and IR spectroscopic investigations, DFT-calculations were performed to support the assignment of the vibrational bands.

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ChemInform Abstract: Ln₄B₄O₁₁F₂ (Ln: Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd₄B₄O₁₁F₂

2011

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-The title compounds are prepared in a Walker-type multianvil apparatus from mixtures of Ln2O3 (Ln: Eu, Dy), LnF3, and B2O3 (5 GPa, 900°C for the Eu-compound and 8 GPa, 1000°C for the Dy compound, 20 min). Eu4B4O11F2 and Dy4B4O11F2 are isotypic with Gd4B4O11F2 and crystallize in the monoclinic space group C2/c with Z = 4 (single crystal XRD). The structures contain BO 3 groups and BO 4 tetrahedra connected via common corners. -(PITSCHEIDER, A.; ENDERS, M.; HUPPERTZ*, H.;

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RE₄B₄O₁₁F₂ (RE = Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd₄B₄O₁₁F₂

Cited by 7 publications

References 7 publications

RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

High-pressure Syntheses and Characterization of the Rare Earth Borates RE5(BO₃)₂F₉ (RE=Dy, Ho)

ChemInform Abstract: Ln₄B₄O₁₁F₂ (Ln: Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd₄B₄O₁₁F₂

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RE4B4O11F2 (RE = Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd4B4O11F2

Cited by 7 publications

References 7 publications

RE4B4O11F2 (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd4B4O11F2

RE4B4O11F2 (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd4B4O11F2

High-pressure Syntheses and Characterization of the Rare Earth Borates RE5(BO3)2F9 (RE=Dy, Ho)

ChemInform Abstract: Ln4B4O11F2 (Ln: Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd4B4O11F2

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RE₄B₄O₁₁F₂ (RE = Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd₄B₄O₁₁F₂

RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

RE₄B₄O₁₁F₂ (RE = Pr, Nd): Two New Rare-earth Fluoride Borates Isotypic to Gd₄B₄O₁₁F₂

High-pressure Syntheses and Characterization of the Rare Earth Borates RE5(BO₃)₂F₉ (RE=Dy, Ho)

ChemInform Abstract: Ln₄B₄O₁₁F₂ (Ln: Eu, Dy): New Phases Isotypic to the Fluoride Borate Gd₄B₄O₁₁F₂