2010
DOI: 10.1016/j.intermet.2010.01.008
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Enhanced thermoelectric properties of iron doped compound (Zn1−xFex)4Sb3

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Cited by 19 publications
(9 citation statements)
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“…In recent years, enhanced power factors through doping optimization are achieved in -Zn 4 Sb 3 . Conventional doping such as the substitutions of Pb [33,34], Bi [35], Nb [36], Mg [37], Cu [38], Cd [39,40], Sn [33,41], In [33,34,42,43], Al [42,44], Ga [42,44], Ag [38,45], Hg [46], Fe [47], Te [48], Journal of Nanomaterials 3 and Se [49] for -Zn 4 Sb 3 have been investigated. As listed in Table 1, the composition, Seebeck coefficient , total thermal conductivity , and maximum reported in some typical literatures are given.…”
Section: Structure Of -Zn 4 Sb 3 and Traditional Doping Strategy To Enhance Zt For -Zn 4 Sbmentioning
confidence: 99%
“…In recent years, enhanced power factors through doping optimization are achieved in -Zn 4 Sb 3 . Conventional doping such as the substitutions of Pb [33,34], Bi [35], Nb [36], Mg [37], Cu [38], Cd [39,40], Sn [33,41], In [33,34,42,43], Al [42,44], Ga [42,44], Ag [38,45], Hg [46], Fe [47], Te [48], Journal of Nanomaterials 3 and Se [49] for -Zn 4 Sb 3 have been investigated. As listed in Table 1, the composition, Seebeck coefficient , total thermal conductivity , and maximum reported in some typical literatures are given.…”
Section: Structure Of -Zn 4 Sb 3 and Traditional Doping Strategy To Enhance Zt For -Zn 4 Sbmentioning
confidence: 99%
“…While antimony is currently cheap, it should be noted that the European Union considers it a critical raw material because of a high import reliance and mediocre recycling . The optimal performance of β-Zn 4 Sb 3 is in the temperature range 473–673 K, and this temperature range covers a lot of waste heat generated, for example, in the transportation and industrial sectors. , The performance of thermoelectric materials depends on different physical properties, which are concisely summarized in the thermoelectric figure of merit zT = S 2 T /ρκ, where S is the Seebeck coefficient, ρ is the electrical resistivity, T is the absolute temperature, and κ is the thermal conductivity, where the latter can be separated into contributions from the charge carriers and from the lattice . β-Zn 4 Sb 3 has an excellent zT mainly due to its low thermal conductivity, which can be ascribed to the scattering of phonons by the interstitial Zn atoms in the structure, resulting in a small lattice contribution. A standing challenge with deploying Zn 4 Sb 3 in applications is the decomposition into ZnSb, Sb, Zn, and at times, ZnO, when exposed to the expected temperatures and thermal gradients used in applications. ,, This has led to a range of studies exploring ways to understand and combat this decomposition. , One of these studies investigated the effect of including TiO 2 or ZnO nanocomposites in the β-Zn 4 Sb 3 matrix, and significant improvements were observed in the thermal stability of powders containing TiO 2 nanoparticles, where 98 wt % of β-Zn 4 Sb 3 was intact after heating to 625 K in air compared with ∼30 wt % for pure β-Zn 4 Sb 3 . , The choice of TiO 2 nanoparticles in the present study is based on these results and their easy, cheap, and scalable synthesis with well-controlled size distribution …”
Section: Introductionmentioning
confidence: 99%
“…The traditional strategy of doping has been widely explored to improve the TE properties by tuning the carrier concentration to optimize the power factor (S 2 σ). Dopants, such as Cd [9], Al [10], Ga [10], In [10,11], Hg [12], Nb [13], Te [14,15], Mg [16,17], Ag [18,19], Cu [18], I [20], Se [21], Fe [22], Bi [23], and Pb [24], have been investigated in β-Zn 4 Sb 3 so far. However, most of the above investigations (including Ag doping) were done below room temperature.…”
Section: Introductionmentioning
confidence: 99%