Lech Andrew T, Turner Christopher L, Mohammadi Reza, Tolbert Sarah H, Kaner Richard B
Department of Chemistry and Biochemistry, University of California, Los Angeles, CA 90095;
Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, Richmond, VA 23284;
Proc Natl Acad Sci U S A. 2015 Mar 17;112(11):3223-8. doi: 10.1073/pnas.1415018112. Epub 2015 Mar 2.
Superhard metals are of interest as possible replacements with enhanced properties over the metal carbides commonly used in cutting, drilling, and wear-resistant tooling. Of the superhard metals, the highest boride of tungsten--often referred to as WB4 and sometimes as W(1-x)B3--is one of the most promising candidates. The structure of this boride, however, has never been fully resolved, despite the fact that it was discovered in 1961--a fact that severely limits our understanding of its structure-property relationships and has generated increasing controversy in the literature. Here, we present a new crystallographic model of this compound based on refinement against time-of-flight neutron diffraction data. Contrary to previous X-ray-only structural refinements, there is strong evidence for the presence of interstitial arrangements of boron atoms and polyhedral bonding. The formation of these polyhedral--slightly distorted boron cuboctahedra--appears to be dependent upon the defective nature of the tungsten-deficient metal sublattice. This previously unidentified structure type has an intermediary relationship between MB2 and MB12 type boride polymorphs. Manipulation of the fractionally occupied metal and boron sites may provide insight for the rational design of new superhard metals.
超硬金属作为可能的替代品备受关注,其性能优于切削、钻孔和耐磨工具中常用的金属碳化物。在超硬金属中,钨的最高硼化物——通常称为 WB4,有时也称为 W(1-x)B3——是最有前途的候选材料之一。然而,尽管这种硼化物于 1961 年被发现,但其结构从未得到完全解析,这一事实严重限制了我们对其结构-性能关系的理解,并在文献中引发了越来越多的争议。在此,我们基于对飞行时间中子衍射数据的精修,提出了这种化合物的一种新的晶体学模型。与之前仅基于 X 射线的结构精修不同,有强有力的证据表明存在硼原子的间隙排列和多面体键合。这些多面体——略微扭曲的硼立方八面体——的形成似乎取决于贫钨金属亚晶格的缺陷性质。这种先前未被识别的结构类型在 MB2 和 MB12 型硼化物多晶型之间具有中间关系。对部分占据的金属和硼位点的调控可能为新型超硬金属的合理设计提供思路。