Ba6Ge2Se12 and Ba7Ge2Se17: Two Centrosymmetric Barium Seleno-Germanates with Polyatomic Anion Disorder

Menezes, Luke T.; Richtik, Brooke N; Assoud, Abdeljalil; Zeljkovic, Ivan D; Farahi, Nader; Dolgos, Michelle R.; Kleinke, Holger

doi:10.1021/acs.inorgchem.2c03373

Cited by 3 publications

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“…36 The experimental sound velocity was determined to be 1927 m s −1 at room temperature, and thus, the theoretical κ diff was calculated to be 0.22 W m −1 K −1 . This is 33% lower than the experimental κ values of the recently reported selenogermanates Ba 6 Ge 2 Se 12 and Ba 7 Ge 2 Se 17 , which exhibit positional disorder (0.33 W m −1 K −1 at 573 K), 39 and 62% lower than the experimentally determined κ of Sr 6 Ge 3 OSe 11 .…”

Section: ■ Introductioncontrasting

confidence: 63%

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

et al. 2023

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The strategy of partial isovalent anion substitution was used to discover the new noncentrosymmetric (NCS) quaternary oxyselenide Sr6Ge3OSe11. Sr6Ge3OSe11 crystallizes in the NCS trigonal space group P3m1 with lattice parameters of a = 10.268(5) Å, c = 6.363(3) Å, Z = 1. Spectroscopic studies revealed that Sr6Ge3OSe11 has a wide transparent range in the IR region and an optical band gap of 2.39 eV. The nonlinear optical (NLO) properties of this compound were calculated via DFT as well as measured experimentally using a KH2PO4 standard. The second-order nonlinear susceptibilities (dij ) of Sr6Ge3OSe11 were calculated to be d 15 = −12.9 pm V–1, d 22 = −15.4 pm V–1, d 33 = 15.0 pm V–1, and d eff = 17.0 pm V–1. Size-dependent second harmonic generation (SHG) intensity experiments revealed that Sr6Ge3OSe11 is phase-matchable at 1064 nm with an intensity equal to 0.62 × KH2PO4. Additionally, this material exhibits ultralow thermal conductivity despite its relatively low molar mass, which is of interest in the thermoelectric energy conversion.

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Section: ■ Introductioncontrasting

confidence: 63%

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

et al. 2023

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“…31 The compound Ba 6 Ge 2 Se 12 , which also features disorded Se 2 2− pairs, was recently reported to have a similarly low thermal conductivity of 0.33 W m −1 K −1 at 573 K, which may in part be attributed to its larger average molar mass and stronger Umklapp scattering due to its greater unit cell volume. 11 Barium tin chalcogenides that possess S/Te mixing such as Ba 5 Sn 2 S 7.673 Te 1.327 and Ba 7 Sn 3 S 12.161 Te 0.839 have demonstrated extremely low lattice thermal conductivity ranging from 0.3 to 0.4 W m −1 K −1 between 300 and 773 K. 32 Ultra-low thermal conductivity in thermoelectric selenides have been observed in K 2 Bi 8 Se 13 , which achieved thermal conductivity between 0.42 and 0.20 W m −1 K −1 from 300 to 873 K due to anisotropic K/Bi mixed sites. 33 Similarly, low thermal conductivity has been observed in the Bi 2+2n O 2+2n Se n X 2 (X = Cl, Br) family of layered selenides, which are composed of Bi 2 O 2 X 2 and Bi 2 O 2 Se layers that efficiently scatter phonon modes in the transverse and longitudinal directions.…”

Section: Thermal Conductivitymentioning

confidence: 99%

“…To study the optical properties, the Raman spectra were obtained for samples of Ba 6 Si 2−x Ge x Se 12 with x = 0, 0.5, 1, and 1.5. In addition, the thermal conductivity was determined for all members, as the related Ge variant Ba 6 Ge 2 Se 12 11 exhibited very low values, advantageous for the thermoelectric energy conversion. 12,13 Experimental Synthesis Single crystals of Ba 6 Si 2 Se 12 were first prepared by adding stoichiometric amounts of pure elements (Ba: pieces, 99.7%, Strem Chemicals; Si: pieces, 99.9%, Alfa Aesar; Se: powder, 99.999%, Alfa Aesar) into a carbon-coated silica tube inside a dry Ar filled glove box.…”

Section: Introductionmentioning

confidence: 99%

“…Interestingly, a comparable disorder is also observed in the monoclinic Ge variant, Ba 6 Ge 2 Se 12 ( P 2 1 / c ). 11 The Se 2 2− disorder was investigated via single crystal and Rietveld refinements. A thorough investigation of the phase width revealed that up to 75% of the Si atoms in the Ba 6 Si 2 Se 12 structure type can be replaced with Ge atoms without changing the structure type to that of Ba 6 Ge 2 Se 12 .…”

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Crystal structure, phase width, and physical properties of the barium tetrel selenides Ba₆Si_2−xGe_xSe₁₂ (x = 0, 0.5, 1, and 1.5) with ultralow thermal conductivity

Menezes,

Assoud,

Kleinke

2023

Dalton Trans.

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Comparative Analysis of the Crystal Structures and Physical Properties of the Complex Group 14 Selenides Sr₈Ge₄Se₁₇ and Ba₈Sn₄Se₁₇

Menezes,

Gage,

Assoud

et al. 2024

Inorg. Chem.

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During our group's continued exploration of group 14 chalcogenides, we discovered two new compounds, Sr 8 Ge 4 Se 17 and Ba 8 Sn 4 Se 17 . Both compounds have an 8:4:17 stoichiometric ratio but adopt different centrosymmetric crystal structures. Sr 8 Ge 4 Se 17 crystallizes in the triclinic P1̅ space group with a = 11.8429(18) Å, b = 12.172(3) Å, c = 13.624(3) Å, α = 114.472(5) 0 , β = 97.396(5) 0 , γ = 107.040(5) 0 , and Z = 2. Ba 8 Sn 4 Se 17 crystallizes in the monoclinic C2/c space group with a = 47.286(3) Å, b = 12.6294(5) Å, c = 25.7303(15) Å, β = 104.585(5) 0 , and Z = 16. The unit cell of Ba 8 Sn 4 Se 17 is approximately eight times larger than the unit cell of Sr 8 Ge 4 Se 17 , which is a consequence of the differently aligned tetrahedra, resulting in a quadrupled a axis, unchanged b axis, and doubled c axis. The lattice parameters and atomic coordinates were finalized via Rietveld refinements on data collected at a high-energy synchrotron beamline. Both compounds are semiconductors with band gaps in the visible region. Sr 8 Ge 4 Se 17 and Ba 8 Sn 4 Se 17 have optical band gaps of 1.88 and 1.93 eV, respectively. Both compounds have remarkably low thermal conductivities owing to their low symmetries and large unit cells. The minimum experimental thermal conductivity values of Sr 8 Ge 4 Se 17 and Ba 8 Sn 4 Se 17 are 0.45 W m −1 K −1 at 321 K and 0.31 W m −1 K −1 at 324 K, respectively.

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Ba₆Ge₂Se₁₂ and Ba₇Ge₂Se₁₇: Two Centrosymmetric Barium Seleno-Germanates with Polyatomic Anion Disorder

Cited by 3 publications

References 49 publications

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

Crystal structure, phase width, and physical properties of the barium tetrel selenides Ba₆Si_2−xGe_xSe₁₂ (x = 0, 0.5, 1, and 1.5) with ultralow thermal conductivity

Comparative Analysis of the Crystal Structures and Physical Properties of the Complex Group 14 Selenides Sr₈Ge₄Se₁₇ and Ba₈Sn₄Se₁₇

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Ba6Ge2Se12 and Ba7Ge2Se17: Two Centrosymmetric Barium Seleno-Germanates with Polyatomic Anion Disorder

Cited by 3 publications

References 49 publications

Sr6Ge3OSe11: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe3] Building Blocks

Sr6Ge3OSe11: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe3] Building Blocks

Crystal structure, phase width, and physical properties of the barium tetrel selenides Ba6Si2−xGexSe12 (x = 0, 0.5, 1, and 1.5) with ultralow thermal conductivity

Comparative Analysis of the Crystal Structures and Physical Properties of the Complex Group 14 Selenides Sr8Ge4Se17 and Ba8Sn4Se17

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Ba₆Ge₂Se₁₂ and Ba₇Ge₂Se₁₇: Two Centrosymmetric Barium Seleno-Germanates with Polyatomic Anion Disorder

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

Sr₆Ge₃OSe₁₁: A Rationally Designed Noncentrosymmetric Oxyselenide with Polar [GeOSe₃] Building Blocks

Crystal structure, phase width, and physical properties of the barium tetrel selenides Ba₆Si_2−xGe_xSe₁₂ (x = 0, 0.5, 1, and 1.5) with ultralow thermal conductivity

Comparative Analysis of the Crystal Structures and Physical Properties of the Complex Group 14 Selenides Sr₈Ge₄Se₁₇ and Ba₈Sn₄Se₁₇