Enhanced Thermoelectric Efficiency through Li-Induced Phonon Softening in CuGaTe<sub>2</sub>

Pöhls, Jan-Hendrik; MacIver, Marissa; Chanakian, Sevan; Zevalkink, Alexandra; Tseng, Yu‐Chih; Mozharivskyj, Yurij

doi:10.1021/acs.chemmater.2c01869

Cited by 9 publications

(11 citation statements)

References 47 publications

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“…11 or lower than those of other CuGaTe 2 -based chalcogenides. [49][50][51][52][53] The ultralow thermal conductivity is attributed to the severe lattice disorder, as mentioned above. As a consequence, the highest zT value reaches ∼1.90 at 770 K when using the measured C p (see Fig.…”

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confidence: 99%

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

Zhong,

Hu,

Sarker

et al. 2023

J. Mater. Chem. A

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confidence: 99%

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

Zhong,

Hu,

Sarker

et al. 2023

J. Mater. Chem. A

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“…Temperature dependence of figure of merit ZT of the (CuGaTe 2 ) 0.96 (AgCl) 0.04 sample and other reported optimized CuGaTe 2 materials ,,,,,,− (the data of refs , and in the figure are reused with the permission of RSC).…”

Section: Resultsmentioning

confidence: 99%

AgCl Addition to Chalcopyrite Compound for Ultra-Low Thermal Conductivity in Realizing High ZT Thermoelectric Materials

Zhang

Luo

et al. 2023

ACS Appl. Mater. Interfaces

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Optimizing the performance of thermoelectric materials by reducing its thermal conductivity is crucial to enhance its thermoelectric efficiency. Novel thermoelectric materials like the CuGaTe2 compound are hindered by high intrinsic thermal conductivity, which negatively impacts its thermoelectric performance. In this paper, we report that the introduction of AgCl by the solid-phase melting method will influence the thermal conductivity of CuGaTe2. The generated multiple scattering mechanisms are expected to reduce the lattice thermal conductivity while maintaining sufficient good electrical properties. The experimental results were supported by first-principles calculations confirming that the doping of the Ag will decrease the elastic constants, bulk modulus, and shear modulus of CuGaTe2, which makes the mean sound velocity and Debye temperature of Ag-doped samples lower than those of CuGaTe2, indicating the lower lattice thermal conductivity. In addition, the Cl elements within the CuGaTe2 matrix escaping during the sintering process will create holes of various sizes within the sample. These combined effects of holes and impurities will induce phonon scattering, which further reduces the lattice thermal conductivity. Based on our findings, we conclude that the introduction of AgCl into CuGaTe2 has shown a lower thermal conductivity without compromising the electrical performance, resulting in an ultra-high ZT value of 1.4 in the (CuGaTe2)0.96(AgCl)0.04 sample at 823 K.

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“…Recently, copper-based diamond-like compounds with a distorted tetrahedral structure that are derived from the binary-cubic sphalerite structure through cation-substitution and the expansion of the unit cell have attracted great interest in the TE field. 10,[29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44] Among a large number of compounds in this family, Cu 3 SbSe 4 with a narrow band gap of 0.4 eV exhibits independently tunable electrical and thermal transport properties. [45][46][47] Nevertheless, the TE performance of Cu 3 SbSe 4 is currently restricted by its relatively low electrical conductivity and high lattice thermal conductivity.…”

Section: Introductionmentioning

confidence: 99%

High thermoelectric performance and compatibility in Cu₃SbSe₄–CuAlS₂ composites

Huang

Shen

Wang

et al. 2023

Energy Environ. Sci.

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Enhanced Thermoelectric Efficiency through Li-Induced Phonon Softening in CuGaTe₂

Cited by 9 publications

References 47 publications

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

AgCl Addition to Chalcopyrite Compound for Ultra-Low Thermal Conductivity in Realizing High ZT Thermoelectric Materials

High thermoelectric performance and compatibility in Cu₃SbSe₄–CuAlS₂ composites

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Enhanced Thermoelectric Efficiency through Li-Induced Phonon Softening in CuGaTe2

Cited by 9 publications

References 47 publications

Data analytics accelerates the experimental discovery of Cu1−xAgxGaTe2 based thermoelectric chalcogenides with high figure of merit

Data analytics accelerates the experimental discovery of Cu1−xAgxGaTe2 based thermoelectric chalcogenides with high figure of merit

AgCl Addition to Chalcopyrite Compound for Ultra-Low Thermal Conductivity in Realizing High ZT Thermoelectric Materials

High thermoelectric performance and compatibility in Cu3SbSe4–CuAlS2 composites

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Resources

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Enhanced Thermoelectric Efficiency through Li-Induced Phonon Softening in CuGaTe₂

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

Data analytics accelerates the experimental discovery of Cu_1−xAg_xGaTe₂ based thermoelectric chalcogenides with high figure of merit

High thermoelectric performance and compatibility in Cu₃SbSe₄–CuAlS₂ composites