2018
DOI: 10.1002/pssr.201800083
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Thermoelectric Materials Under Pressure

Abstract: Recent advances in high-pressure technology provide access both to novel materials and to exotic properties of known materials, thus opening exciting opportunities for fundamental as well as applied research. This review summarizes for various classes of materials the existing knowledge on the thermoelectric behavior under hydrostatic pressure to identify promising directions for future developments.

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Cited by 14 publications
(9 citation statements)
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“…Both p-and n-type polymers have developed rapidly with figure of merit zT increased from 10 -3 to 0.4 3,8 . The effects of oxidation 9 , pressure 10 and temperature have been studied. There have been many experimental results 11,12 demonstrating the temperature dependence of Seebeck coefficient, S. For example, for the polymer blends poly (3,4ethylenedioxythiophene): poly(styrenesulfonate)/polypyrrole (PEDOT:PSS/PPy), Li et al 13 showed that S monotonically increases with T. While, for the doped poly(2,5-bis(3-tetradecylthiophen-2yl)thieno [3,2-b]thiophene)(PBTTT) films with thermal annealing beforehand and the potassiumdoped poly(nickel-ethylenetetrathiolate) (poly (Ni-ett)), Zhang et al 14 and Sun et al 15 showed that when T rises, S first increases, then levels off, and finally decreases at higher T. We need to mention that thermopower measurement for organic conductors have been performed for a long time.…”
Section: Introductionmentioning
confidence: 99%
“…Both p-and n-type polymers have developed rapidly with figure of merit zT increased from 10 -3 to 0.4 3,8 . The effects of oxidation 9 , pressure 10 and temperature have been studied. There have been many experimental results 11,12 demonstrating the temperature dependence of Seebeck coefficient, S. For example, for the polymer blends poly (3,4ethylenedioxythiophene): poly(styrenesulfonate)/polypyrrole (PEDOT:PSS/PPy), Li et al 13 showed that S monotonically increases with T. While, for the doped poly(2,5-bis(3-tetradecylthiophen-2yl)thieno [3,2-b]thiophene)(PBTTT) films with thermal annealing beforehand and the potassiumdoped poly(nickel-ethylenetetrathiolate) (poly (Ni-ett)), Zhang et al 14 and Sun et al 15 showed that when T rises, S first increases, then levels off, and finally decreases at higher T. We need to mention that thermopower measurement for organic conductors have been performed for a long time.…”
Section: Introductionmentioning
confidence: 99%
“…For example, a number of theoretical studies have indicated that with the use of various external factors, such as applied pressure or stress, one can attain very high ZT magnitudes in existing thermoelectric materials. [18][19][20][21][22] A primary criterion for potential thermoelectricity in a semiconductor or semimetal is a low value of the lattice thermal conductivity κ L that cannot be dramatically changed by the chemical substitution or by variation in carrier concentration, in contrast to thermoelectric power and electrical conductivity. Many existing thermoelectric materials have either layered crystal structures or structures incorporating voids or cavities ( Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Materials under high pressure lead to exciting results; here, the pressure modifies the lattice structure, shape, bonding, and intern result in the tuning of band structures and hence the optoelectronic properties. [52][53][54][55][56][57][58][59][60] For example, a large improvement in the thermoelectric properties of p-doped Sb 1.5 Bi 0.5 Te 3 was reported by Polvani et al [53] The Seebeck coefficient is improved from 212 to 305 μV K À1 with a pressure of 1.7 GPa and resulted in an enhanced zT value of 2.2. Similarly, Meng et al studied the thermoelectric properties of Nd x Ce 3Àx Pt 3 Sb 4, and significant improvement was observed.…”
Section: Pressure-induced Enhancementmentioning
confidence: 99%