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Enhancing Interfacial Stability and Mechanical Strength of a CoSb<sub>3</sub>-Based Thermoelectric Junction Using Ti-Based Alloy Barrier Layers

Lixia Zhang, Hui Pan, Zhan Sun, Huiyuan Geng, Yunsheng Xu, Qing Chang, Bo Zhang

2023ACS Applied Materials & Interfaces10 citationsDOI

Abstract

CoSb 3 -based filled skutterudites (SKDs) are among the most promising materials for power generation. However, the poor interfacial stability and mechanical strength severely limit their practical application when joined with Cu electrodes. In this study, we propose multiphase Ti-based alloy barrier layers for CoSb 3 -based thermoelectric junctions to prevent the continuous brittle TiCoSb phase formation. Following the principles of coefficient of thermal expansion matching, we designed three types of Ti 80 –x Nb x Co 20 ( x = 0, 5, and 10, at.%) barrier layers with the thin intermetallic compound (IMC) layers (<20 μm). Transmission electron microscopy analysis revealed that the interfacial microstructure of the Ti 75 Nb 5 Co 20 /Ce-SKD junction comprises Ti 5 Sb 3, Ti 5 CoSb 3, TiCoSb, and TiSb 2 phases, as well as unreacted TiCo, Ti 2 Co, and Ti(Nb) ss phases, demonstrating a uniform staggered distribution state. After aging tests, the IMC thickness increased gradually from 7 to 12 μm, and the interfacial contact resistivity increased from 7.59 to 15.46 μΩ·cm 2 . A Cu layer was chosen as a buffer during the brazing process to prevent the formation of cracks and holes. After aging for 360 h at 823 K, the shear strength of the brazed joints remained at ∼21 MPa. Our results demonstrate that the Cu/CuSnP/Cu/Ti 75 Nb 5 Co 20 /Ce-SKD brazed joint exhibits excellent interfacial stability and satisfactory mechanical strength.

Topics & Concepts

Materials scienceIntermetallicBrazingMicrostructureAlloyThermoelectric effectComposite materialBrittlenessShear strength (soil)Thermoelectric materialsMetallurgyThermal conductivitySoil waterSoil sciencePhysicsThermodynamicsEnvironmental scienceAdvanced Thermoelectric Materials and DevicesSemiconductor materials and interfacesIntermetallics and Advanced Alloy Properties
Enhancing Interfacial Stability and Mechanical Strength of a CoSb<sub>3</sub>-Based Thermoelectric Junction Using Ti-Based Alloy Barrier Layers | Litcius