通过连续超临界水热流动过程合成的十进位高熵氧化物纳米颗粒。

Denary High-Entropy Oxide Nanoparticles Synthesized by a Continuous Supercritical Hydrothermal Flow Process.

作者信息

Hanabata Shota, Kusada Kohei, Yamamoto Tomokazu, Toriyama Takaaki, Matsumura Syo, Kawaguchi Shogo, Kubota Yoshiki, Nishida Yoshihide, Haneda Masaaki, Kitagawa Hiroshi

机构信息

Division of Chemistry, Graduate School of Science, Kyoto University, Kitashirakawa-Oiwakecho, Sakyo-ku, Kyoto 606-8502, Japan.

The HAKUBI Center for Advanced Research, Kyoto University, Kitashirakawa-Oiwakecho, Sakyo-ku, Kyoto 606-8502, Japan.

出版信息

J Am Chem Soc. 2024 Jan 10;146(1):181-186. doi: 10.1021/jacs.3c07351. Epub 2023 Dec 28.

DOI:10.1021/jacs.3c07351

PMID:38153046

Abstract

High-entropy oxide nanoparticles (HEO NPs) have been intensively studied because of their attractive properties, such as high stability and enhanced catalytic activity. In this work, for the first time, denary HEO NPs were successfully synthesized using a continuous supercritical hydrothermal flow process without calcination. Interestingly, this process allows the formation of HEO NPs on the order of seconds at a relatively lower temperature. The synthesized HEO NPs contained 10 metal elements, La, Ca, Sr, Ba, Fe, Mn, Co, Ru, Pd, and Ir, and had a perovskite-type structure. Atomic-resolution high-angle annular dark-field scanning transmission electron microscopy and energy-dispersive X-ray spectroscopy measurements revealed homogeneous dispersion of the 10 metal elements. The obtained HEO NPs also exhibited a higher catalytic activity for the CO oxidation reaction than that of the LaFeO NPs.

摘要

高熵氧化物纳米颗粒（HEO NPs）因其具有诸如高稳定性和增强的催化活性等吸引人的特性而受到广泛研究。在这项工作中，首次通过连续超临界水热流动过程成功合成了十元高熵氧化物纳米颗粒，且无需煅烧。有趣的是，该过程能够在相对较低的温度下在数秒内形成高熵氧化物纳米颗粒。合成的高熵氧化物纳米颗粒包含10种金属元素，即镧（La）、钙（Ca）、锶（Sr）、钡（Ba）、铁（Fe）、锰（Mn）、钴（Co）、钌（Ru）、钯（Pd）和铱（Ir），并具有钙钛矿型结构。原子分辨率高角度环形暗场扫描透射电子显微镜和能量色散X射线光谱测量表明这10种金属元素均匀分散。所获得的高熵氧化物纳米颗粒对CO氧化反应也表现出比LaFeO纳米颗粒更高的催化活性。

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通过连续超临界水热流动过程合成的十进位高熵氧化物纳米颗粒。

Denary High-Entropy Oxide Nanoparticles Synthesized by a Continuous Supercritical Hydrothermal Flow Process.

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