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Investigation of Ba8Au5.25Ge40.3□0.45 under hydrostatic pressure (CROSBI ID 600375)

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

Popčević, Petar ; Barišić, Neven ; Krellner, Kornelius ; Buehler-Paschen, Silke ; Grin, Yuri ; Smontara, Ana Investigation of Ba8Au5.25Ge40.3□0.45 under hydrostatic pressure // New thermoelectric materials: Thermoelectrics 2013. 2013

Podaci o odgovornosti

Popčević, Petar ; Barišić, Neven ; Krellner, Kornelius ; Buehler-Paschen, Silke ; Grin, Yuri ; Smontara, Ana

engleski

Investigation of Ba8Au5.25Ge40.3□0.45 under hydrostatic pressure

Due to relatively large figure of merit (ZT can reach values higher than 1), its chemical and thermal stability at high temperatures Clathrates are very promising thermoelectric materials. Since Bacontaining clathrates are considered to be prospective thermoelectrics, in the current spot of interest are ternary type-I clathrates in Ba-Au-Ge and Ba-Ag-Ge systems. The main research activity was focusing mainly on solubility range, phase equilibria and some transport properties.[1-4] It seems that depending on Au (Ag) content dominant electrical carriers can be of p or n type while the temperature dependence revels either metallic or semiconducting behaviour. Hydrostatic pressure is powerful tool for probing electronic structure of material. Through changing interatomic distances it directly influences band structure increasing overlapping integrals and electronic velocities. In particular it is useful to use it in to fine tune the system in a proximity of a phase transition and by that probe the stability of the system and help elucidate interactions driving the transition.[5] Here we present first measurements of transport properties (electrical resistivity and thermoelectric power) behaviour under hydrostatic pressure measured from low (1.5K) up to room temperature of the monocrystal clathrate type I solid solution Ba8AuxGe46-x-y□y (x=5.25, y=0.45). Compared to known studies [3, 4] of Ba8AuxGe46-x-y□y system our composition shows the largest thermopower amounting 395 μΩcm at room temperature. Electrical resistivity at room-temperature was found to be 47 mΩcm, also the largest one. Interestingly, electrical resistivity rises linearly with pressure at rate 2.4 mΩcm/GPa while thermopower is pressure independent up to 2 GPa. For this particular composition Fermi level is expected to be located in the narrow energy gap close to the top of the valence band. Increase of electrical resistivity with pressure is probably due to widening of the energy gap and/or shift of the Fermi energy to higher values. Deviation of semiconducting like behaviour of electrical resistivity at low temperatures (T<10K) could be connected to presence of small amount of density of states within the gap due to impurities and vacancies.

clathrates; hydrostatic pressure; transport properties

The paper was presented as a poster by Petar Popčević. 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

2013.

objavljeno

Podaci o matičnoj publikaciji

New thermoelectric materials: Thermoelectrics 2013

Podaci o skupu

New thermoelectric materials: Thermoelectrics 2013

poster

28.09.2013-01.10.2013

Split, Hrvatska

Povezanost rada

Fizika