2014
DOI: 10.1016/j.ssi.2014.03.025
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Anomalous transport and thermoelectric performances of CuAgSe compounds

Abstract: The copper silver selenide has two phases: the low-temperature semimetal phase (α-CuAgSe) and high-temperature phonon-glass superionic phase (β-CuAgSe). In this work, the electric transport and thermoelectric properties of the two phases are investigated. It is revealed that the β-CuAgSe is a p-type semiconductor and exhibits low thermal conductivity while the α-CuAgSe shows metallic conduction with dominant n-type carriers and low electrical resistivity. The thermoelectric figure of merit zT of the polycrysta… Show more

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Cited by 65 publications
(101 citation statements)
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“…19 Our ZT values above 575 K are comparable to the bulk value (0.9 vs. 0.95 at 623 K) due to the extremely low thermal conductivity. The valley-like ZT profiles suggest the minimum value near the phase transition temperature (467 K), and it drastically increased from 0.1 at 470 K to 0.8 at 500 K. This anomalous behavior is consistent with previous reports on thermoelectric materials with phase transition.…”
Section: -21supporting
confidence: 53%
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“…19 Our ZT values above 575 K are comparable to the bulk value (0.9 vs. 0.95 at 623 K) due to the extremely low thermal conductivity. The valley-like ZT profiles suggest the minimum value near the phase transition temperature (467 K), and it drastically increased from 0.1 at 470 K to 0.8 at 500 K. This anomalous behavior is consistent with previous reports on thermoelectric materials with phase transition.…”
Section: -21supporting
confidence: 53%
“…The results show that electrons are the main charge carriers in CuAgSe below 300 K. The carrier density (n) is approximately 10 18 and decreases with rising temperature, while the carrier mobility first decreases from 7478 to 1798 cm 2 /(V·s) with increasing temperature from 3 K to 200 K, then slightly increases to 1966 cm 2 /(V·s) at 300 K. The carrier density is almost the same but the carrier mobility is significantly reduced by nanostructure compared with bulk CuAgSe. [18][19] The thermoelectric properties of sintered CuAgSe nanoparticles above room temperature were further investigated, and Figure 7 displays the results measured from room temperature to 623 K. The differences between the results around room temperature shown in Figures 4 and 7 originated from the error of different instruments. A reversible first order phase transition is proved by the heating-cooling DSC curve displayed in Figure S4(a).…”
Section: -21mentioning
confidence: 99%
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“…[11][12][13][14][15] The rigid anion sublattice provides a crystalline pathway for electrons transport, while the liquid-like cation sublattice can greatly scatter the heat-carrying phonons and even eliminate some of the transverse vibrational modes, leading to simultaneously shortened phonon mean free path and reduced heat capacity below the Dulong-Petit value at high temperatures. 11,13 Motivated by the PLEC concept, many superionic compounds, such as Cu2-xδ (δ = S, Se, Te), 11,12,[16][17][18][19][20] CuAgSe, 21,22 Cu5FeS4, 23 Ag/Cu-based chromium diselenides, 14,24 and argyrodite-type compounds, 15 have been discovered with ultra-low thermal conductivity and high zT values. Among them, copper chalcogenides Cu2-xδ (δ= S, Se, Te) have attracted great attentions due to their unique features of environmentally benign, low-cost, and earth-abundant.…”
Section: Introductionmentioning
confidence: 99%