核壳结构纳米线是一类具有可调控物理特性的一维纳米材料.本文报道一种具有B4C核心,B6O壳层的五次孪晶纳米线.B4C和B6O同属于α菱方富硼化合物,二者的点阵参数相近.对单根纳米线的电子衍射、高分辨电子显微学分析,确定了纳米线的五次循环孪晶结构,纳米线芯部成分为B4C,表面具有B6O外延层.明场形貌像及能量过滤像分析表明该纳米线具有非对称截面形貌.通过系列温度合成实验可以预见,进一步调节原料配比、合成温度等因素,可大规模合成具有B4C/B6O核壳结构的五次循环孪晶纳米线,这将有助于进一步研究和应用α菱方硼化物纳米线的高温热电特性.%Core-shell nanowires are special one-dimensional nanomaterials with tunable physical properties.We report a B4C/B6O core-shell nanowire with five-fold cyclic twinned structure.Both B4C and B6O belong to α-rhombohedral boron-rich materials and have similar lattice parameters.The combination of electron diffraction and high-resolution electron microscopy analysis for an individual nanowire not only reveals its five-fold cyclic twinned structure,but also the core-shell structure with a B4C core and an epitaxial B6O shell.Analysis of the bright field and energy-filtered images indicates that the nanowire has an asymmetric corss-sectional morphology.It is envisaged that large scale B4C/B6O core-shell nanowires with five-fold twinned structure can be synthesized through solid state reaction by tuning the ratio of the starting materials,synthesis atmosphere and temperature.It will be of a benefit to further investigation and application of high-temperature thermoelectric properties of α-rhombohedral boron-rich nanowires.
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