电偶置换法合成Ti-Ni和Zr-Ni核壳颗粒

IF 3.1 4区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Inorganics Pub Date : 2023-08-24 DOI:10.3390/inorganics11090347
A. F. Dresvyannikov, L. E. Kalugin, Ekaterina V. Petrova
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引用次数: 0

摘要

本文重点研究了具有“核壳”结构的Ti-Ni和Zr-Ni金属体系的电偶置换合成,它们是金属间化合物的潜在前驱体。作者定义了以粒度、相组成和元素组成为特征的多金属系统的有效合成参数和形成特征。X射线荧光和X射线相分析方法表明,镍在分散的钛和锆上的沉积导致产生具有代表Ni和Ti以及Ni和Zr的机械混合物的相组成的测试样品。X射线荧光分析方法表明,浓度为0.5-1.5 M的氢氟酸的存在导致沉淀中元素的定量比例固定,这使得分散体系“钛镍”和“锆镍”的定量组成可以在相对较宽的范围内调节。扫描电子显微镜证明,所有合成的系统都具有高度多孔的结构,该结构遵循钛和锆颗粒的表面轮廓,并且在形成的颗粒表面上存在球形纳米级亚基。
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Synthesis of Ti-Ni and Zr-Ni Core–Shell Particles Using Galvanic Replacement
This article focuses on the galvanic replacement synthesis of Ti-Ni and Zr-Ni metal systems with a “core-shell” structure, which are potential precursors for intermetallics. The authors defined effective synthesis parameters and formation features of polymetallic systems characterized by granulometric, phase, and elemental composition. X-ray fluorescence and X-ray phase analysis methods showed that the deposition of nickel on dispersed titanium and zirconium leads to the production of test samples with phase composition representing a mechanical mixture of Ni and Ti, and Ni and Zr. The method of X-ray fluorescence analysis showed that the presence of hydrofluoric acid with a 0.5-1.5 M concentration results in the formation of fixed quantitative ratios of elements in the precipitate, which allows the quantitative composition of dispersed systems “titanium-nickel” and “zirconium-nickel” to be regulated within a relatively wide range. Scanning electron microscopy proved that all synthesized systems are characterized by a highly porous structure that follows the titanium and zirconium particle surface contour and the presence of spherical nanoscale subunits on the formed particle surface.
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来源期刊
Inorganics
Inorganics Chemistry-Inorganic Chemistry
CiteScore
2.80
自引率
10.30%
发文量
193
审稿时长
6 weeks
期刊介绍: Inorganics is an open access journal that covers all aspects of inorganic chemistry research. Topics include but are not limited to: synthesis and characterization of inorganic compounds, complexes and materials structure and bonding in inorganic molecular and solid state compounds spectroscopic, magnetic, physical and chemical properties of inorganic compounds chemical reactivity, physical properties and applications of inorganic compounds and materials mechanisms of inorganic reactions organometallic compounds inorganic cluster chemistry heterogenous and homogeneous catalytic reactions promoted by inorganic compounds thermodynamics and kinetics of significant new and known inorganic compounds supramolecular systems and coordination polymers bio-inorganic chemistry and applications of inorganic compounds in biological systems and medicine environmental and sustainable energy applications of inorganic compounds and materials MD
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