Microstructure and Thermoelectric Properties of Bulk Cobalt Antimonide (CoSb3) Skutterudites Obtained by Pulse Plasma Sintering

Kruszewski, Mirosław J.; Zybała, Rafał; Ciupiński, Ł.; Chmielewski, Marcin; Adamczyk‐Cieślak, Bogusława; Michalski, A.; Rajska, Maria; Kurzydłowski, K. J.

doi:10.1007/s11664-015-4037-5

Cited by 29 publications

(17 citation statements)

References 40 publications

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“…Data comprising the temperature dependence of the Seebeck coefficient, electrical and thermal conductivity, as well as the zT coefficient are collected in Figure …”

Section: Resultsmentioning

confidence: 99%

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications

et al. 2017

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The described method enables facile gram‐scale preparation of CuFeS2 nanocrystals exhibiting interesting thermoelectric properties from simple and readily available precursors. Exchange of primary organic ligands for inorganic ones using either (NH4)2S or triethyloxonium tetrafuoroborate (Meerwein's salt) resulted in nanocrystals from which n‐type bulk thermoelectric materials were obtained through sintering under pressure. The measured physical properties of the fabricated bulk thermoelectric materials depend on the type of inorganic ligands used for the exchange. In particular, materials that were surface‐modified with Meerwein's salt have a higher Seebeck coefficient (|S| = 238 µV K–1) as compared to those modified with (NH4)2S, whereas the latter exhibit higher electrical conductivity (8500 S m–1) and lower thermal conductivity (0.5 W m–1 K–1), both of which are favorable for thermoelectric applications.

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“…Data comprising the temperature dependence of the Seebeck coefficient, electrical and thermal conductivity, as well as the zT coefficient are collected in Figure …”

Section: Resultsmentioning

confidence: 99%

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications

et al. 2017

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“…The spark plasma sintering (SPS) when used for compacting thermoelectric materials can prevent grain size growth and increase ZT by decreasing thermal conductivity [4,5]. The process can be used to obtain high density samples that can be used to construct high efficiency thermoelectric modules.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Antimony Telluride for Thermoelectric and Optoelectronic Applications

Zybała¹,

Mars²,

Mikuła³

et al. 2017

Archives of Metallurgy and Materials

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Antimony telluride (Sb 2 Te 3 ) is an intermetallic compound crystallizing in a hexagonal lattice with R-3m space group. It creates a c lose packed structure of an ABCABC type. As intrinsic semiconductor characterized by excellent electrical properties, Sb 2 Te 3 is widely used as a low-temperature thermoelectric material. At the same time, due to unusual properties (strictly connected with the structure), antimony telluride exhibits nonlinear optical properties, including saturable absorption. Nanostructurization, elemental doping and possibilities of synthesis Sb 2 Te 3 in various forms (polycrystalline, single crystal or thin film) are the most promising methods for improving thermoelectric properties of Sb 2 Te 3 .Applications of Sb 2 Te 3 in optical devices (e.g. nonlinear modulator, in particular saturable absorbers for ultrafast lasers) are also interesting. The antimony telluride in form of bulk polycrystals and layers for thermoelectric and optoelectronic applications respectively were used. For optical applications thin layers of the material were formed and studied. Synthesis and structural characterization of Sb 2 Te 3 were also presented here. The anisotropy (packed structure) and its influence on thermoelectric properties have been performed. Furthermore, preparation and characterization of Sb 2 Te 3 thin films for optical uses have been also made.

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“…The densification process was carried out under vacuum at the uniaxial compressive pressure of 50 MPa in an SPS apparatus. 21 The powder was placed in a cylindrical graphite die with an inner diameter of 10 mm and pressed between two graphite punches. The compacted powder was heated up to 420°C with a heating rate of 50°C min À1 and held for 15 min, then cooled at a rate of 25°C min À1 .…”

Section: Sample Preparationmentioning

confidence: 99%

The Properties of Bi2Te3-Cu Joints Obtained by SPS/FAST Method

Zybała

Kaszyca

Schmidt

et al. 2019

Journal of Elec Materi

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One of the most important challenges connected with the production of thermoelectric modules and their parts is the development of an appropriate joining technology. The produced junctions must be characterised not only by high mechanical strength and good adhesion but also by high electrical conductivity, high heat conductivity and, due to working conditions, by a longterm chemical and temperature stability. This paper presents the results of the investigation of a Bi 2 Te 3 /copper junction obtained using lead-free solders. We analyse and discuss junction properties and quality. To produce this connection via resistance soldering under pressure, a spark slasma sintering (SPS/FAST) apparatus was used. The properties of the samples (electrical conductivity and Seebeck coefficient) have been characterized and presented. The microstructure investigations and analysis of the element distribution are also presented.

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Microstructure and Thermoelectric Properties of Bulk Cobalt Antimonide (CoSb3) Skutterudites Obtained by Pulse Plasma Sintering

Cited by 29 publications

References 40 publications

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications

Synthesis and Characterization of Antimony Telluride for Thermoelectric and Optoelectronic Applications

The Properties of Bi2Te3-Cu Joints Obtained by SPS/FAST Method

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Microstructure and Thermoelectric Properties of Bulk Cobalt Antimonide (CoSb3) Skutterudites Obtained by Pulse Plasma Sintering

Cited by 29 publications

References 40 publications

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS2 Nanocrystals for Thermoelectric Applications

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS2 Nanocrystals for Thermoelectric Applications

Synthesis and Characterization of Antimony Telluride for Thermoelectric and Optoelectronic Applications

The Properties of Bi2Te3-Cu Joints Obtained by SPS/FAST Method

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Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications

Facile Gram‐Scale Synthesis of the First n‐Type CuFeS₂ Nanocrystals for Thermoelectric Applications