促进 BaTiO3 立方体中的氢化物置换

IF 4.3 2区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Kazunari Arai, Kaito Onagi, Ya Tang, Toru Ishigaki, Hiroaki Sai, Yuki Sasahara, Gabriel Caruntu, Harumi Okabe, Masaru Harada, Kouichi Nakashima, Hiroshi Kageyama
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引用次数: 0

摘要

我们报告了利用水热合成氧化物的拓扑化学氢化物反应合成过氧化物氧氢化物 BaTiO3-xHx 立方体(100-300 nm)的情况。X 射线和中子衍射研究表明,阴离子(氢化物/氧化物)交换得到了极大改善,导致氢化物含量最高达到 0.7,高于之前的报道,而表面含有油酸的立方体则没有发生任何反应。这些结果表明,定义明确的{100}面以及无机残留物是促进氢化的关键。对 BaTiO2.3H0.7 的基辛格分析得出的活化能为 165 kJ/mol,远低于 BaTiO2.4H0.6 的活化能(313 kJ/mol)。与氧化物相比,具有明确刻面的氧氢化物以前从未报道过;因此,这项研究为合理合成具有可控化学成分和形态的氧氢化物材料开辟了新途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Promoted Hydride Substitution in BaTiO3 Cubes
We report the synthesis of perovskite oxyhydride BaTiO3–xHx cubes (100–300 nm) using the topochemical hydride reaction of the hydrothermally synthesized oxide. X-ray and neutron diffraction studies revealed that the anion (hydride/oxide) exchange is greatly improved, leading to a maximum hydride content of 0.7, which is higher than previously reported, while no reaction is seen for those with oleic acid on their surface. These results indicate that the well-defined {100} facets, as well as the absence of organic residues, are crucial for promoting hydrogenation. Kissinger analysis on BaTiO2.3H0.7 yielded an activation energy of 165 kJ/mol, much lower than that of BaTiO2.4H0.6 (313 kJ/mol). In contrast to oxides, oxyhydrides with well-defined facets have not been reported before; thus, this study opens new avenues for the rational synthesis of oxyhydride materials with controlled chemical composition and morphology.
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来源期刊
Inorganic Chemistry
Inorganic Chemistry 化学-无机化学与核化学
CiteScore
7.60
自引率
13.00%
发文量
1960
审稿时长
1.9 months
期刊介绍: Inorganic Chemistry publishes fundamental studies in all phases of inorganic chemistry. Coverage includes experimental and theoretical reports on quantitative studies of structure and thermodynamics, kinetics, mechanisms of inorganic reactions, bioinorganic chemistry, and relevant aspects of organometallic chemistry, solid-state phenomena, and chemical bonding theory. Emphasis is placed on the synthesis, structure, thermodynamics, reactivity, spectroscopy, and bonding properties of significant new and known compounds.
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