H. Kaldarar scite author profile

The formation, phase relations, crystal chemistry and physical properties were investigated for the solid solution deriving from binary clathrate with a solubility limit of 8 Zn atoms per formula unit at 800 °C ( is a vacancy). Single-crystal x-ray data throughout the homogeneity region confirm the clathrate type I structure with cubic primitive space group type . Temperature-dependent x-ray spectra as well as heat capacity define a low-lying, almost localized, phonon branch, whereas neutron spectroscopy indicates a phonon mode with significant correlations. The transport properties are strongly determined by the Ge/Zn ratio in the framework of the structure. Increasing Zn content drives the system towards a metal-to-insulator transition; for example, shows metallic behaviour at low temperatures, whilst at high temperatures semiconducting features become obvious. A model based on a gap of the electronic density of states slightly above the Fermi energy was able to explain the temperature dependences of the transport properties. The thermal conductivity exhibits a pronounced low-temperature maximum, dominated by the lattice contribution, while at higher temperatures the electronic part gains weight. Zn-rich compositions reveal attractive Seebeck coefficients approaching −180 µV K−1 at 700 K.

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Heavy Fermion Superconductivity and Antiferromagnetic Ordering in CePt₃Si without Inversion Symmetry

Bauer

Kaldarar

Prokofiev

et al. 2007

J. Phys. Soc. Jpn.

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Superconductivity in Novel Ge-Based Skutterudites:{Sr,Ba}Pt4Ge12

et al. 2007

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Combining experiments and ab initio models we report on SrPt4Ge12 and BaPt4Ge12 as members of a novel class of superconducting skutterudites, where Sr or Ba atoms stabilize a framework entirely formed by Ge atoms. Below T(c)=5.35 and 5.10 K for BaPt4Ge12 and SrPt4Ge12, respectively, electron-phonon coupled superconductivity emerges, ascribed to intrinsic features of the Pt-Ge framework, where Ge-p states dominate the electronic structure at the Fermi energy.

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Clathrate formation in the Ba-Pd-Ge system: Phase equilibria, crystal structure, and physical properties

et al. 2007

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Phase relations at subsolidus temperatures as well as at T = 800°C, crystallographic data, electrical and thermal transport measurements, and heat capacity data are reported for several compositions within the clathrate type-I solid solution: Ba 8 Pd x Ge 46−x−y ᮀ y ͑ᮀ is a vacancy͒. The solid solution derives from binary clathrate Ba 8 Ge 43 ᮀ 3 with a solubility limit of 3.8 Pd atoms per formula unit at T = 800°C. Structural investigations throughout the homogeneity region confirm cubic primitive symmetry consistent with the space group type Pm3n and lattice parameters ranging from a = 1.0657͑2͒ nm for Ba 8 Ge 43 ᮀ 3 to a = 1.077 41͑2͒ nm for Ba 8 Pd 3.8 Ge 42.2 ᮀ 0.0 . The primary field of clathrate crystallization has been elucidated from micrography and differential thermal analyses. Both heat capacity and inelastic neutron diffraction define a low-lying, almost localized, phonon branch. Studies of transport properties evidence electrons as the majority charge carriers for most of the homogeneity region; however, at the Pd-rich limit, holes dominate the electronic transport. The crossover between both regimes provides appropriate conditions for attractively high Seebeck values. The lattice contribution dominates the overall thermal conductivity.

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Ternary clathrates Ba–Cd–Ge: phase equilibria, crystal chemistry and physical properties

Melnychenko-Koblyuk¹,

Grytsiv²,

Berger³

et al. 2007

J. Phys.: Condens. Matter

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The present paper describes the formation, phase relations at subsolidus temperatures and at 800 • C, crystal chemistry and physical properties of a series of ternary clathrates as part of the solid solution Ba 8 Cd x Ge 43−5x/8 3−3x/8 , derived from binary Ba 8 Ge 43 3 with a solubility limit of 8 Cd per formula unit at 800 • C. Structural investigations in all cases confirm cubic primitive symmetry with a lattice parameter a ≈ 1.1 nm, consistent with the space group type Pm 3n. Both the temperature dependent x-ray spectra and the heat capacity define a low-lying, almost localized, phonon branch.Studies of transport properties show electrons to be the majority charge carriers in the systems. As the Cd content increases, the system is driven towards a metal-to-insulator transition, causing Ba 8 Cd 4.7 Ge 40.3 1.0 , for example, to show metallic behaviour at low temperatures while at high temperatures semiconducting features become obvious. A model based on a gap of the electronic density of states slightly above the Fermi energy perfectly explains such a scenario. Thermal conductivity exhibits a pronounced low temperature maximum, dominated by the lattice contribution, while at higher temperatures the electronic part becomes more important.

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H. Kaldarar

Ternary clathrates Ba–Zn–Ge: phase equilibria, crystal chemistry and physical properties

Heavy Fermion Superconductivity and Antiferromagnetic Ordering in CePt₃Si without Inversion Symmetry

Superconductivity in Novel Ge-Based Skutterudites:{Sr,Ba}Pt4Ge12

Clathrate formation in the Ba-Pd-Ge system: Phase equilibria, crystal structure, and physical properties

Ternary clathrates Ba–Cd–Ge: phase equilibria, crystal chemistry and physical properties

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H. Kaldarar

Ternary clathrates Ba–Zn–Ge: phase equilibria, crystal chemistry and physical properties

Heavy Fermion Superconductivity and Antiferromagnetic Ordering in CePt3Si without Inversion Symmetry

Superconductivity in Novel Ge-Based Skutterudites:{Sr,Ba}Pt4Ge12

Clathrate formation in the Ba-Pd-Ge system: Phase equilibria, crystal structure, and physical properties

Ternary clathrates Ba–Cd–Ge: phase equilibria, crystal chemistry and physical properties

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Heavy Fermion Superconductivity and Antiferromagnetic Ordering in CePt₃Si without Inversion Symmetry