稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
667-669
,共3页
万俊霞%季诚昌%赵雪盈%李小亚%陈立东
萬俊霞%季誠昌%趙雪盈%李小亞%陳立東
만준하%계성창%조설영%리소아%진립동
填充式方钴矿%Fe掺杂%热电性能
填充式方鈷礦%Fe摻雜%熱電性能
전충식방고광%Fe참잡%열전성능
filled skutterudlte compounds%Fe doping%thermoelectric properties
采用熔融法制备了P型填充式方钴矿化合物Yb_yFe_xCo_(4-x)Sb_(12),并研究了Co位Fe掺杂对该化合物热电传输特性的影响.在300~850 K的温度范围内,测试了化合物的电导率、赛贝克系数和热导率.结果表明,化合物的主要相组成为Yb_yFe_xCo_(4-x)Sb_(12),EPMA结果显示化合物中含有微量FeSb_2和CoSb_2杂质相.化合物的赛贝克系数均为正值,表明为p型半导体.随着Fe掺杂量的增加,化合物的电导率增加,晶格热导率降低,最小室温晶格热导率仅为1.33 W·m~(-1)K~(-1),对于化合物Yb_0.29Fe_1.2Co_2.8Sb_(12),在800 K时获得最大热电优值ZT约为0.67.
採用鎔融法製備瞭P型填充式方鈷礦化閤物Yb_yFe_xCo_(4-x)Sb_(12),併研究瞭Co位Fe摻雜對該化閤物熱電傳輸特性的影響.在300~850 K的溫度範圍內,測試瞭化閤物的電導率、賽貝剋繫數和熱導率.結果錶明,化閤物的主要相組成為Yb_yFe_xCo_(4-x)Sb_(12),EPMA結果顯示化閤物中含有微量FeSb_2和CoSb_2雜質相.化閤物的賽貝剋繫數均為正值,錶明為p型半導體.隨著Fe摻雜量的增加,化閤物的電導率增加,晶格熱導率降低,最小室溫晶格熱導率僅為1.33 W·m~(-1)K~(-1),對于化閤物Yb_0.29Fe_1.2Co_2.8Sb_(12),在800 K時穫得最大熱電優值ZT約為0.67.
채용용융법제비료P형전충식방고광화합물Yb_yFe_xCo_(4-x)Sb_(12),병연구료Co위Fe참잡대해화합물열전전수특성적영향.재300~850 K적온도범위내,측시료화합물적전도솔、새패극계수화열도솔.결과표명,화합물적주요상조성위Yb_yFe_xCo_(4-x)Sb_(12),EPMA결과현시화합물중함유미량FeSb_2화CoSb_2잡질상.화합물적새패극계수균위정치,표명위p형반도체.수착Fe참잡량적증가,화합물적전도솔증가,정격열도솔강저,최소실온정격열도솔부위1.33 W·m~(-1)K~(-1),대우화합물Yb_0.29Fe_1.2Co_2.8Sb_(12),재800 K시획득최대열전우치ZT약위0.67.
Filled skutterudite compounds Yb_yFe_xCo_(4-x)Sb_(12) (x=0.8~1.5, y=0.35) were synthesized by melting method. The constituent phases and chemical composition of the samples were determined by X-ray diffraction (XRD) and electron probe microanalysis(EPMA). Effects of Fe content on the thermoelectric transport properties of Yb_yFe_xCo_(4-x)Sb_(12) compounds were investigated. All samples showed p-type conduction. All the samples contain Yb_yFe_xCo_(4-x)Sb_(12) skutterudite as the main phase with a trace amount of FeSb_2 and CoSb_2 impurities. Experimental results show that electrical conductivity of the samples increases with increasing iron content due to the vacancy point defect scattering at Co site introduced by iron. The lowest lattice thermal conductivity at room temperature is about 1.33 W·m~(-1)K~(-1). The highest ZT value is 0.67 forYb_yFe_xCo_(4-x)Sb_(12) at 800 K.
