Interface Layer of Te-based Thermoelectric Device: Abnormal Growth and Interface Stability

Though Te has excellent figure of merit （ZT）,the severe element diffusion and reaction at the Te/metallic-electrodes interface render high contact resistivity （ρc） and low device conversion efficiency （η）.Therefore,it is critical to develop suitable barrier layers for optimizing the bonding between...

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Veröffentlicht in:	Wu ji cai liao xue bao 2024-01, Vol.39 (8), p.903
Hauptverfasser:	MIAO, Xin, YAN, Shiqiang, WEI, Jindou, WU, Chao, FAN, Wenhao, CHEN, Shaoping
Format:	Artikel
Sprache:	chi ; eng
Schlagworte:	Barrier layers Bonding Composition effects Diffusion barriers Diffusion layers Electrodes Figure of merit Interface reactions Interface stability Thermal stability Thickness
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container_title	Wu ji cai liao xue bao
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creator	MIAO, Xin YAN, Shiqiang WEI, Jindou WU, Chao FAN, Wenhao CHEN, Shaoping
description	Though Te has excellent figure of merit （ZT）,the severe element diffusion and reaction at the Te/metallic-electrodes interface render high contact resistivity （ρc） and low device conversion efficiency （η）.Therefore,it is critical to develop suitable barrier layers for optimizing the bonding between Te and metallic electrodes.In this work,an appropriate barrier layer,Ni Te2–m （NixTe （x=0.500～0.908））,was screened based on gradient structure.No reaction layers and defects at the interface of Ni0.5Te/Te0.985Sb0.015/Ni0.5Te were detected before and after aging at 473 K.Lowρc （less than 10μ?·cm~2） and high η （about 75%of the theoretical value under a temperature difference of 180 K（hot end:473 K）） were achieved and maintained stable during aging,showing excellent thermal stability of the interface.When x＞0.500,the thickness of the interface reaction layer decreased with x increasing,showing the retarding effect dominating the growth behavior of interface reaction layer not from the usual thermodynamic factors,such as interface reaction energy and composition gradient,but from the"atom vacancy"on formation of the reaction layer.
doi_str_mv	10.15541/jim20240057
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subjects	Barrier layers Bonding Composition effects Diffusion barriers Diffusion layers Electrodes Figure of merit Interface reactions Interface stability Thermal stability Thickness
title	Interface Layer of Te-based Thermoelectric Device: Abnormal Growth and Interface Stability
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