National Institute for Materials Science (NIMS), Materials Nanoarchitechtonics Center (MANA), Namiki 1-1, Tsukuba, 305-0044, Japan.
Dalton Trans. 2010 Jan 28;39(4):1027-30. doi: 10.1039/b916028k. Epub 2009 Nov 3.
Transition-metal (Mo, Mn, Fe, Rh, Ti, Cu, Zn) doping was carried out on the borosilicide compound REB(44)Si(2) (RE = rare earth). REB(44)Si(2) compounds exhibit Seebeck coefficients greater than 200 microV K(-1) at high temperatures and unlike most compounds, the figure of merit shows a steep increase at T > 1000 K making them promising high-temperature thermoelectric materials. Although zinc itself does not remain in the final product, zinc doping was found to improve the crystal quality, which has been a long-standing problem for the borosilicides. As a result, a significant increase of the thermoelectric power factor by more than 30% was achieved.
对硼硅化物化合物 REB(44)Si(2)(RE = 稀土元素)进行了过渡金属(Mo、Mn、Fe、Rh、Ti、Cu、Zn)掺杂。REB(44)Si(2) 化合物在高温下表现出大于 200 μV K(-1)的塞贝克系数,与大多数化合物不同,其品质因数在 T > 1000 K 时急剧增加,使它们成为有前途的高温热电材料。尽管锌本身不在最终产物中,但锌掺杂被发现可以改善晶体质量,这一直是硼硅化物的一个长期问题。结果,通过超过 30%的热电功率因子得到了显著的提高。