Fabrication, Characterization of Ultra-low-density Bulk Nanoporous Gold with Uniform Structure and Volume Shrinkage Control During Drying

IF 0.6 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

稀有金属材料与工程 Pub Date : 2018-08-01 DOI:10.1016/S1875-5372(18)30186-3

Liu Chaoqing, Lian Lixian, Liu Ying, Li Qin

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引用次数: 2

Abstract

Ultra-low-density bulk nanoporous gold (NPG) is required in inertial confined fusion (ICF) experiments. Existing bulk NPG has some limitations in ICF application due to non-uniformity structure or residues of C originated from organic template. Here, combined with dealloying, NPG with submicron cavities and nanopores was prepared by nano-SiO₂ templates. However, the smaller templates bring greater challenges for the volume shrinkage control during drying as gold content on each shell is extremely low for ultra-low density. Therefore, the influence of drying methods on volume shrinkage was investigated. The results show that volume shrinkage is up to 86.41% during conventional drying, but it is controlled below 4% by supercritical CO₂ drying. Finally, NPG with ultra-low-density of 0.35 g/cm³ was fabricated. Compared to NPG prepared by micro templates, the NPG with 500 nm spherical cavities and 2∼70 nm nanopores reduces the size difference between large cavities and nanopores and significantly improves the uniformity of its structure.

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具有均匀结构和干燥收缩控制的超低密度块状纳米孔金的制备、表征

在惯性约束聚变(ICF)实验中需要超低密度体积纳米孔金(NPG)。现有的块状NPG由于结构不均匀或有机模板中C的残留，在ICF应用中存在一定的局限性。本文采用纳米sio2模板，结合合金化制备了具有亚微米空腔和纳米孔的NPG。然而，较小的模板在干燥过程中为体积收缩控制带来了更大的挑战，因为在超低密度的情况下，每个壳上的含金量极低。因此，研究了干燥方式对体积收缩率的影响。结果表明:常规干燥的体积收缩率可达86.41%，超临界CO2干燥可将体积收缩率控制在4%以下;最后制备了超低密度0.35 g/cm3的NPG。与微模板制备的NPG相比，具有500 nm球形空腔和2 ~ 70 nm纳米孔的NPG减小了大空腔和纳米孔之间的尺寸差异，显著提高了结构的均匀性。

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