Liam Gannon scite author profile

The need for both high electrical conductivity and low thermal conductivity creates a design conflict for thermoelectric systems, leading to the consideration of materials with complicated crystal structures. Rattling of ions in cages results in low thermal conductivity, but understanding the mechanism through studies of the phonon dispersion using momentum-resolved spectroscopy is made difficult by the complexity of the unit cells. We have performed inelastic X-ray and neutron scattering experiments that are in remarkable agreement with our first-principles density-functional calculations of the phonon dispersion for thermoelectric Na(0.8)CoO2, which has a large-period superstructure. We have directly observed an Einstein-like rattling mode at low energy, involving large anharmonic displacements of the sodium ions inside multi-vacancy clusters. These rattling modes suppress the thermal conductivity by a factor of six compared with vacancy-free NaCoO2. Our results will guide the design of the next generation of materials for applications in solid-state refrigerators and power recovery.

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Disorder Quenching of the Charge Density Wave in ZrTe3

Hoesch

Gannon

Shimada

et al. 2019

Phys. Rev. Lett.

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The charge density wave (CDW) in ZrTe3 is quenched in samples with small amount of Te isoelectronically substituted by Se. Using angle-resolved photoemission spectroscopy we observe subtle changes in the electronic band dispersions and Fermi surfaces on Se substitution. The scattering rates are substantially increased, in particular for the large three-dimensional Fermi surface sheet. The quasi-one-dimensional band is unaffected by the substitution and still shows a gap at low temperature, which starts to open from room temperature. The detailed temperature dependence reveals that the long-range order is absent in the electronic states as in the periodic lattice distortion. The competition between superconductivity and CDW is thus linked to the suppression of long-range order of the CDW. arXiv:1712.03379v1 [cond-mat.supr-con]

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Coupled commensurate charge density wave and lattice distortion inNa2Ti2Pn2O(Pn=As,

et al. 2016

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We report single crystal X-ray diffraction measurements on Na2Ti2P n2O (P n = As, Sb) which reveal a charge superstructure that appears below the density wave transitions previously observed in bulk data. From symmetry-constrained structure refinements we establish that the associated distortion mode can be described by two propagation vectors, q1 = (1/2, 0, l) and q2 = (0, 1/2, l), with l = 0 (Sb) or l = 1/2 (As), and primarily involves in-plane displacements of the Ti atoms perpendicular to the Ti-O bonds. We also present angle resolved photoemission spectroscopy (ARPES) measurements, which show band folding and back bending consistent with a density wave with the same wave vectors q1 and q2 associated with fermi surface nesting, and muon-spin relaxation data, which show no indication of spin density wave order. The results provide direct evidence for phononassisted charge density wave order in Na2Ti2P n2O and fully characterise a proximate ordered phase that could compete with superconductivity in doped BaTi2Sb2O.

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Local corrugation and persistent charge density wave in ZrTe3 with Ni intercalation

et al. 2018

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The mechanism of emergent bulk superconductivity in transition metal intercalated ZrTe3 is investigated by studying the effect of Ni doping on the band structure and charge density wave (CDW). The study reports theoretical and experimental results in the range of Ni0.01ZrTe3 to Ni0.05ZrTe3. In the highest doped samples bulk superconductivity with Tc < TCDW is observed, while TCDW is strongly reduced. Relativistic ab-initio calculations reveal Ni incorporation occurs preferentially through intercalation in the van-der-Waals gap. Analysis of the structural and electronic effects of intercalation, indicate buckling of the Te-sheets adjacent to the Ni site akin to a locally stabilised CDW-like lattice distortion. Experiments by low temperature x-ray diffraction, angle-resolved-photoemission spectroscopy (ARPES) as well as temperature dependent resistivity reveal the nearly unchanged persistence of the CDW into the regime of bulk superconductivity. The CDW gap is found to be unchanged in its extent in momentum space, with the gap size also unchanged or possibly slightly reduced on Ni intercalation. Both experimental observations suggest that superconductivity coexists with the CDW in NixZrTe3.

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Liam Gannon

Suppression of thermal conductivity by rattling modes in thermoelectric sodium cobaltate

Disorder Quenching of the Charge Density Wave in ZrTe3

Coupled commensurate charge density wave and lattice distortion inNa2Ti2Pn2O(Pn=As,

Local corrugation and persistent charge density wave in ZrTe3 with Ni intercalation

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