Be<sub>3</sub>Ru: Polar Multiatomic Bonding in the Closest Packing of Atoms

Agnarelli, Laura; Prots, Yurii; Schmidt, Marcus; Krnel, Mitja; Svanidze, Eteri; Burkhardt, Ulrich; Leithe‐Jasper, Andreas; Grin, Yu.

doi:10.1002/open.202200118

Cited by 10 publications

(18 citation statements)

References 45 publications

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“…Thus, the multiatomic Ru−Be bonds in Be 2 Ru (Fe 2 P type) are essentially polar. This finding is completely in line with the bonding analysis of the chemically homologous compound Be 3 Ru, where multi‐atomic Be−Ru interactions are found to stabilize the crystal structure [14] . Similar features of the bond basins were evaluated for the NbRuB‐type model of Be 2 Ru (Figure S8, Supporting Information).…”

Section: Resultssupporting

confidence: 83%

“…They are far from spherical form. The shapes of Be species in both models are convex and compact, being similar to that found for Be in Be 3 Ru, [14] Be 21 Pt 5 [15] or Be 5 Pt. [16] The QTAIM Ru atoms have concave surfaces toward neighbouring beryllium species and flatter ones toward homoatomic neighbours indicating the appearance of rather different atomic interactions, like it was found in chemically homologous Mg 29 Pt 4 [17] and Mg 3 GaIr.…”

Section: Chemistry-a European Journalsupporting

confidence: 73%

“…Two endothermic signals at 1520 °C and at 1540 °C are detected in the DSC heating curve of Be 2 Ru, and they find their equivalents in the cooling curve (Figure S2 in the Supporting Information). Such thermal behaviour is assigned for a peritectic formation of the main phase at 1520 °C from the Be‐rich phase Be 3 Ru, [14] and crossing of the liquidus at 1540 °C.…”

Section: Methodsmentioning

confidence: 94%

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Structural Complexity in the Apparently Simple Crystal Structure of Be₂Ru

Agnarelli

Prots

Ormeci

et al. 2023

Chemistry A European J

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The structural features of the hexagonal layered crystal structure of Be 2 Ru (a = 5.7508(3) Å, c = 3.0044(2) Å, space group P � 62m) were investigated by single crystal X-ray diffraction and transmission electron microscopy (TEM). The residual electron density and high-resolution TEM images show that the real structure can be described as an intergrowth of the main hexagonal matrix of the Fe 2 P type with minor orthorhombic inclusions of its stacking variants. Such atomic arrangement is stabilized by the charge transfer from Be to Ru and by a system of polar three-and four-atomic bonds involving both components. The calculated electronic density of states (DOS) of Be 2 Ru revealed, contrarily to typical intermetallic compounds, a pseudo gap (dip) in the vicinity of the Fermi level. The temperature dependence of the electrical resistivity of Be 2 Ru shows metal behaviour in agreement with the non-zero DOS at the Fermi level.

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Section: Resultssupporting

confidence: 83%

Section: Chemistry-a European Journalsupporting

confidence: 73%

Section: Methodsmentioning

confidence: 94%

See 1 more Smart Citation

Structural Complexity in the Apparently Simple Crystal Structure of Be₂Ru

Agnarelli

Prots

Ormeci

et al. 2023

Chemistry A European J

Self Cite

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“…Interestingly, these characteristic features of covalently bonded p -block elements are practically identical for both germanium and palladium. Such intriguing anionic behavior of palladium and other transition metals (e.g., Ru, Ir, Pt, Au, Ag) has been increasingly reported in the literature ,,− and considered responsible for unprecedented chemical properties. , Hence, the QTAIM effective charges indicate that the crystal structure of Yb 2 PdGe 3 is composed of false[ PdGe 3 false] ∞ 2 honeycomb anionic layers spaced by Yb cations.…”

Section: Resultsmentioning

confidence: 99%

Flux Growth, Crystal Structure, and Chemical Bonding of Yb₂PdGe₃, an AlB₂Superstructure within the Rare-Earth Series

Freccero

Pereira²,

Solokha

et al. 2023

Inorg. Chem.

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The complete structure revision of the RE 2 PdGe 3 (RE = rare-earth metal) series revealed that Yb 2 PdGe 3 is the only AlB 2 ordered superstructure. Good-quality single crystals of this compound were successfully grown from molten indium flux, enabling accurate single-crystal investigations. Yb 2 PdGe 3 crystallizes with the Ce 2 CoSi 3 -type structure in the hexagonal space group P6/mmm (no. 191) with lattice parameters a = 8.468(1) Å and c = 4.0747(7) Å. This structure is a four-order derivative of AlB 2 , composed of planar ∞ 2 [PdGe 3 ] honeycomb layers spaced by Yb species, located at the center of Ge 6 and Ge 4 Pd 2 hexagons. A superconducting transition is observed below the critical temperature of 4 K. A divalent state of Yb is deduced from magnetic susceptibility measurements below room temperature, which indicate an almost nonmagnetic behavior. A charge transfer from Yb to Pd and Ge was evidenced by the Quantum Theory of Atoms in Molecules (QTAIM) effective charges; polar four-atomic Ge−Pd/Yb and two-atomic Pd−Yb bonds were observed from the ELI-D (electron localizability indicator), partial ELI-D, and ELI-D/QTAIM intersections. The bonding interactions between Ge atoms within regular Ge 6 hexagons are found to be intermediate between single bonds, as in elemental Ge, and higher-order bonds in the hypothetic Ge 6 H 6 and Ge 6 6− aromatic molecules.

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“…Interestingly, Eu is the only QTAIM cation (+1.02) and Pd bears a negative effective charge of À0.92, enriching the family of intermetallic compounds containing an anionic late transition metal. [44][45][46][47][48][49][50] The Q eff (Eu) is almost half of the formal one supporting its involvement in covalent interactions. The shapes of the atomic basins are quite characteristic for transition metal rare-earth tetrelides: Eu cations are quite spherical whereas both Pd and Sn display polyhedral shapes, sharing convex surfaces with Eu and flat among them.…”

Section: Chemical Bondingmentioning

confidence: 99%