新型 Zintl 相 Ba2Cd2Pn3（Pn = As、Sb）的合成、晶体学和理论研究，以及固溶体（Ba(1-x)Sr(x))2Cd2Sb3 和 Ba2Cd2(Sb(1-x)As(x))3。

Synthesis, crystallographic and theoretical studies of the new Zintl phases Ba2Cd2Pn3 (Pn = As, Sb), and the solid solutions (Ba(1-x)Sr(x))2Cd2Sb3 and Ba2Cd2(Sb(1-x)As(x))3.

机构信息

Department of Chemistry and Biochemistry, University of Delaware, Newark, Delaware 19716, USA.

出版信息

Dalton Trans. 2010 Jan 28;39(4):1063-70. doi: 10.1039/b914305j. Epub 2009 Dec 1.

PMID:20066192

Abstract

Two new Zintl compounds Ba(2)Cd(2)As(3) and Ba(2)Cd(2)Sb(3) have been synthesized and structurally characterized. They crystallize in a novel monoclinic structure type with the space group C2/m (no. 12), featuring polyanionic layers made of CdPn(4) tetrahedra (Pn = As, Sb) and homoatomic Pn-Pn bonds. The topological relationships between the structure of Ba(2)Cd(2)Sb(3) and those of BaCd(2)Sb(2) (CaAl(2)Si(2) type) and Ba(3)Cd(2)Sb(4) (own type) are discussed as well. Based on electronic structures calculations, carried out by the density-functional method, and resistivity measurements, pure Ba(2)Cd(2)As(3) is shown to be a small-gap semiconductor and pure Ba(2)Cd(2)Sb(3) to be a poor metal. The structures of the title compounds are amenable to doping on both cation and pnicogen sites, which could enable fine-tuning the transport properties, and make them promising materials for thermoelectric applications.

摘要

已经合成并结构表征了两种新型的 Zintl 化合物 Ba(2)Cd(2)As(3)和 Ba(2)Cd(2)Sb(3)。它们结晶于具有新颖的单斜结构类型的 C2/m（No.12）空间群中，其特征在于由 CdPn(4)四面体（Pn=As，Sb）和同核 Pn-Pn 键组成的多阴离子层。还讨论了 Ba(2)Cd(2)Sb(3)的结构与 BaCd(2)Sb(2)（CaAl(2)Si(2)型）和 Ba(3)Cd(2)Sb(4)（自身类型）之间的拓扑关系。基于密度泛函方法进行的电子结构计算和电阻率测量表明，纯 Ba(2)Cd(2)As(3)是一种小带隙半导体，而纯 Ba(2)Cd(2)Sb(3)是一种不良金属。标题化合物的结构适合在阳离子和 pnicogen 位进行掺杂，这可以使输运性质得到精细调节，并使它们成为有前途的热电应用材料。

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新型 Zintl 相 Ba2Cd2Pn3（Pn = As、Sb）的合成、晶体学和理论研究，以及固溶体（Ba(1-x)Sr(x))2Cd2Sb3 和 Ba2Cd2(Sb(1-x)As(x))3。

Synthesis, crystallographic and theoretical studies of the new Zintl phases Ba2Cd2Pn3 (Pn = As, Sb), and the solid solutions (Ba(1-x)Sr(x))2Cd2Sb3 and Ba2Cd2(Sb(1-x)As(x))3.

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