New materials with different morphologies, nanostructures, and components can have structural advantages for application in materials science. Multicomponent-active hybrid nanostructured materials are among the best candidates for application in electrode materials. Spray pyrolysis and solvothermal synthesis are two popular methods for the preparation of multicomponent-active hybrid nanostructured materials. In this study, the two types of NiO-MnCo2 O4 -Ni6 MnO8 hybrid anode materials for use in lithium-ion batteries were synthesized by two different methods (spray pyrolysis and solvothermal synthesis), and the differences in their physical and electrochemical properties were compared. The two types of anode material exhibited the same hierarchical hybrid composition, but some different physical characteristics, which affected their electrochemical performance.

中文翻译：

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合成路线对混合NiO-MnCo2 O4 -Ni6 MnO8负极材料性能及其电化学性能的影响。

具有不同形态，纳米结构和成分的新材料可以具有在材料科学中应用的结构优势。多组分活性混合纳米结构材料是用于电极材料的最佳候选材料之一。喷雾热解和溶剂热合成是制备多组分活性杂化纳米结构材料的两种流行方法。在这项研究中，通过两种不同的方法（喷雾热解和溶剂热合成）合成了用于锂离子电池的两种类型的NiO-MnCo2 O4 -Ni6 MnO8混合阳极材料，并比较了它们在物理和电化学性质上的差异。 。两种类型的负极材料显示出相同的分层混合组成，但物理特性有所不同，