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Thermoelctric properties of quasicrystals (CROSBI ID 586472)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Popčević, Petar ; Velebit, Kristijan ; Stanić, Denis ; Ivkov, Jovica ; Bihar, Željko ; Bilušić, Ante ; Smontara, Ana Thermoelctric properties of quasicrystals // 14th Joint Vacuum Conference - 12th European Vacuum Conference - 11th Annual Meeting of the German Vacuum Society - 19th Croatian - Slovenian Vacuum Meeting. 2012

Podaci o odgovornosti

Popčević, Petar ; Velebit, Kristijan ; Stanić, Denis ; Ivkov, Jovica ; Bihar, Željko ; Bilušić, Ante ; Smontara, Ana

engleski

Thermoelctric properties of quasicrystals

Quasicrystals are materials that fascinate scientists for more than thirty years: discovery of such materials that possess long-range translational and non-crystalographic orientational order eventually led to re-definition of the term ‘crystal’. The peculiar structure is not the only physical property that makes quasicrystals so interesting: from the point of view of transport, they closely match the concept that a good thermoelectric should have: a glasslike material in relation to phonon, and a metal in relation to electronic transport. Generally, quasicrystals are intrinsically poor thermal conductors – the lack of long-range periodicity disturbs phonon- (and consequently the heat-) flow considerably. Contrary, the charge transport is tunable by difference in compositional, impurity and sample-preparation properties, giving the opportunity to optimize their thermoelectric figure of merit. In this work we discuss charge and heat transport properties of aluminum-based quasicrystals and compare them with related materials being quasiperiodic at short- and periodic at long-range scale, known as quasicrystal approximants. The charge transport (electrical conductivity and thermoelectric power) is analyzed within the spectral conductivity model. The measured thermal conductivity data are analyzed and discussed by the model that takes into account modification of the Wiedemann-Franz law typical for the quasicrystalline structure, and contributions of both extended and localized lattice vibrations. However, the current data tend to indicate that they are not suitable candidates for a new, high-performance thermoelectrics since the considerable increase of the thermoelectric power seems not to be likely.

Quasicrystals; charge and heat transport; thermoelectric figure of merit

The paper was presented as an invited talk by Ante Bilušić. This work was done within the activities of the European Integrated Center for the Development of New Metallic Alloys and Compounds - C-MAC.

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Podaci o prilogu

2012.

objavljeno

Podaci o matičnoj publikaciji

14th Joint Vacuum Conference - 12th European Vacuum Conference - 11th Annual Meeting of the German Vacuum Society - 19th Croatian - Slovenian Vacuum Meeting

Podaci o skupu

14th Joint Vacuum Conference - 12th European Vacuum Conference - 11th Annual Meeting of the German Vacuum Society - 19th Croatian-Slovenian Vacuum Meeting

pozvano predavanje

04.06.2012-08.06.2012

Dubrovnik, Hrvatska

Povezanost rada

Fizika