NMR experiments and electronic structure calculations in type-I BaAlGe clathrates

Gou, Weiping; Rodriguez, Sergio Y.; Li, Yang; Ross, Joseph H.

doi:10.1103/physrevb.80.144108

Cited by 12 publications

(20 citation statements)

References 30 publications

(105 reference statements)

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“…Selected results for Ba 8 19 for those with lower x, E F falls above the gap as expected. The calculated results are close to a rigidband model with little change in the band structure while the Fermi level changes with the Al variation.…”

Section: Computational Results and Discussionsupporting

confidence: 74%

“…The lowest-energy configurations obtained are summarized in Table III, where the first column is the total number of Al per unit cell, the next three columns indicate the Al framework occupation on the 6c, 16i, and 24k parent sites, and the fifth column is the total calculated formation energy relative to the lowest energy. The occupation of three Al on the 6c site has been found to be the preferred value from computations as reported for Ba-Al-Ge, 19 Ba-Ga-Ge, 24 and Ba-Ga-Sn ͑Ref. 25͒ clathrates.…”

Section: Computational Results and Discussionsupporting

confidence: 51%

“…This is somewhat smaller than previously reported for Ba 8 Al 16 Ge 30 , 26 using a different functional. The 3-1-12 configuration was shown previously 19 to have the lowest energy specifically for Al 16 configurations, and also for Ba 8 Ga 16 Ge 30 ͑Ref. 24͒ and Ba 8 Ga 16 Sn 30 .…”

Section: Computational Results and Discussionmentioning

confidence: 73%

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Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

2010

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In a study of type-I Ba 8 Al x Ge 46−x clathrates for 4 Յ x Յ 16, several samples with different stoichiometric compositions were prepared and measured. Here we report wavelength dispersion spectroscopy, powder x-ray diffraction and resistivity measurements, coupled with first-principles calculations. The lattice constant and vacancy count showed linear behavior for low Al content, extrapolating to the values for Ba 8 Ge 43 as x → 0, with the x = 4 sample exhibiting a superstructure identical to that of Ba 8 Ge 43 . In ab initio calculations we identified the most stable configurations and examined energy differences for departures from Zintl behavior. We found the energy barrier for off-Zintl compositions to be relatively low and attributed this to the presence of a pseudogap near the Fermi energy.

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Section: Computational Results and Discussionsupporting

confidence: 74%

Section: Computational Results and Discussionsupporting

confidence: 51%

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Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

2010

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“…We retained the cubic cell symmetry, leaving 54 independent atoms (P1 space group), except for a few cases allowing higher symmetry. Half of these configurations were taken from previous work on Ba 8 Ga 16 Ge 30 [10] and Ba 8 Al x Ge 46-x [11] where the minimum energy configurations where found. Additional configurations were modeled after the proposal by Kozina et al [12] for Ba 8 Ga 16 Sn 30 .…”

Section: Computational Methods and Discussionmentioning

confidence: 99%

NMR and Computational Studies of Ba₈Ga₁₆Sn₃₀ Clathrates

Rodriguez

Zheng

Saribaev³

et al. 2010

MRS Proc.

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We have synthesized type-VIII and type-I Ba8Ga16Sn30 clathrates by using different annealing treatments, confirmed with XRD and electron microprobe measurements. NMR lineshape measurements identified a broad resonance corresponding to first-order-shifted satellites. Simulations for the type I structure based on first principles calculations provided an excellent fit to the data, with the best agreement provided by the calculated lowest-energy configuration, having no Ga-Ga bonds. These results allow us to address local configurations within the random type-I alloy, as well as atomic displacements and bond-length distributions, which we compare to experiment.

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“…It has been shown for these types of semiconducting clathrates that group III elements avoid bonding to each other due to the Coulomb repulsive interactions. 70,71 Guest-guest bonds are unlikely in these compounds because the average distance between the guests is $5.5 Å , which is almost five times larger than the ionic radius of Ba 1.35 Å .…”

Section: A Computational Approachmentioning

confidence: 99%

Electronic, elastic, vibrational, and thermodynamic properties of type-VIII clathrates Ba8Ga16Sn30 and Ba8Al16Sn30 by first principles

Norouzzadeh¹,

Myles²,

Vashaee³

2013

Journal of Applied Physics

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Articles you may be interested inThermoelectric and transport properties of sintered n-type K8Ba16Ga40Sn96 with type-II clathrate structureWe present the results of studying electronic, elastic, vibrational, and thermodynamic properties of type-VIII clathrates Ba 8 Ga 16 Sn 30 Ba 8 Al 16 Sn 30 calculated from a first-principles approach. The calculations utilize the generalized gradient approximation to density functional theory. The results indicate that the Ba 8 Ga 16 Sn 30 and Ba 8 Al 16 Sn 30 are indirect semiconductors with fundamental band gaps of 160 meV and 315 meV, respectively. It was also found that the stiffness of Al containing type-VIII clathrate does not show any significant change against the uniform pressure, shearing, and linear strains. The phonon spectrum and the phonon state densities of these compounds as well as the Raman and infrared active modes were further calculated and the effects of replacing the Ga with Al atoms on the properties of interest were discussed. The calculated elastic, vibrational, and thermodynamic properties along with Raman and IR spectra are reported for the first time. The identification of the Raman and infrared active modes will be especially useful for the experimental characterizations of these compounds. Our calculations show that the heat capacities of these clathrates increase smoothly with temperature and approach the Dulong-Petit value at about room temperature, which agrees with the existing experimental data. V C 2013 AIP Publishing LLC.

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NMR experiments and electronic structure calculations in type-I BaAlGe clathrates

Cited by 12 publications

References 30 publications

Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

NMR and Computational Studies of Ba₈Ga₁₆Sn₃₀ Clathrates

Electronic, elastic, vibrational, and thermodynamic properties of type-VIII clathrates Ba8Ga16Sn30 and Ba8Al16Sn30 by first principles

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NMR experiments and electronic structure calculations in type-I BaAlGe clathrates

Cited by 12 publications

References 30 publications

Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

Zintl behavior and vacancy formation in type-I Ba-Al-Ge clathrates

NMR and Computational Studies of Ba8Ga16Sn30 Clathrates

Electronic, elastic, vibrational, and thermodynamic properties of type-VIII clathrates Ba8Ga16Sn30 and Ba8Al16Sn30 by first principles

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NMR and Computational Studies of Ba₈Ga₁₆Sn₃₀ Clathrates