回到最基本的:金属氧化物的合成

IF 1.7 4区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS
Clement Nicollet, Alfonso J. Carrillo
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引用次数: 0

摘要

金属氧化物的合成通常是任何涉及氧化物材料的领域或应用的材料科学研究的第一步。然而,合成很少是材料科学的主要焦点,材料科学通常描述所述材料的性质和特征。因此,合成方案往往在文献中给予的关注太少,因此描述不佳。对于刚进入该领域的科学家来说,正确选择合成路线和条件来成功制备他们研究的基础是一种纯的、单相的、复杂的氧化物粉末,这变得很困惑。在这篇教程中,我们将介绍氧化物合成的基本化学知识,并简单解释各种合成路线的动机。然后介绍了四种主要的合成路线,即固相反应路线、Pechini路线、燃烧路线和沉淀路线。对于每条路线,描述了该方法,并制定了需要考虑的相关参数。最后,提出了每个路线的一步一步的一般方案,可以为没有经验的研究人员在接近金属氧化物合成时变得更加自信打下坚实的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Back to basics: synthesis of metal oxides

Back to basics: synthesis of metal oxides

Synthesis of metal oxides is typically the first step of any materials science research in a field or application involving oxides materials. However, the synthesis is rarely the prime focus in materials science, which usually describe properties and characterizations of said materials. Consequently, synthesis protocols are often given too little attention in the literature and hence poorly described. For scientists starting in the field, it becomes confusing to make the right choice of synthesis route and conditions to successfully prepare what will be the base of their research, which is a pure, single phase, complex oxide powder. With this tutorial article, we are giving basic knowledge on the underlying chemistry of oxide synthesis, and simple explanations on what motivates the need of various synthesis routes. Then, four main synthesis routes are described, namely the solid state reaction route, the Pechini route, the combustion route, and the precipitation route. For each routes, the approach is described, and the relevant parameters to be considered are developed. Finally, a step by step general protocol for each route is proposed, which can serve as a solid foundation for unexperienced researchers to become more confident when approaching metal oxide synthesis.

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来源期刊
Journal of Electroceramics
Journal of Electroceramics 工程技术-材料科学:硅酸盐
CiteScore
2.80
自引率
5.90%
发文量
22
审稿时长
5.7 months
期刊介绍: While ceramics have traditionally been admired for their mechanical, chemical and thermal stability, their unique electrical, optical and magnetic properties have become of increasing importance in many key technologies including communications, energy conversion and storage, electronics and automation. Electroceramics benefit greatly from their versatility in properties including: -insulating to metallic and fast ion conductivity -piezo-, ferro-, and pyro-electricity -electro- and nonlinear optical properties -feromagnetism. When combined with thermal, mechanical, and chemical stability, these properties often render them the materials of choice. The Journal of Electroceramics is dedicated to providing a forum of discussion cutting across issues in electrical, optical, and magnetic ceramics. Driven by the need for miniaturization, cost, and enhanced functionality, the field of electroceramics is growing rapidly in many new directions. The Journal encourages discussions of resultant trends concerning silicon-electroceramic integration, nanotechnology, ceramic-polymer composites, grain boundary and defect engineering, etc.
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