具有多层次内部结构的中空 MnCo2O4 亚微米球：从介孔球到蛋黄-双壳结构。

Hollow MnCo2O4 submicrospheres with multilevel interiors: from mesoporous spheres to yolk-in-double-shell structures.

机构信息

Institute for Superconducting and Electronic Materials, University of Wollongong , Wollongong, NSW 2522, Australia.

出版信息

ACS Appl Mater Interfaces. 2014 Jan 8;6(1):24-30. doi: 10.1021/am404841t. Epub 2013 Dec 19.

Abstract

We present a general strategy to synthesize uniform MnCo2O4 submicrospheres with various hollow structures. By using MnCo-glycolate submicrospheres as the precursor with proper manipulation of ramping rates during the heating process, we have fabricated hollow MnCo2O4 submicrospheres with multilevel interiors, including mesoporous spheres, hollow spheres, yolk-shell spheres, shell-in-shell spheres, and yolk-in-double-shell spheres. Interestingly, when tested as anode materials in lithium ion batteries, the MnCo2O4 submicrospheres with a yolk-shell structure showed the best performance among these multilevel interior structures because these structures can not only supply a high contact area but also maintain a stable structure.

摘要

我们提出了一种通用策略，用于合成具有各种中空结构的均匀 MnCo2O4 亚微米球。通过使用 MnCo-乙二醇酸盐亚微米球作为前驱体，并在加热过程中适当控制升温速率，我们制备了具有多层次内部结构的中空 MnCo2O4 亚微米球，包括介孔球、空心球、蛋黄壳球、壳中壳球和蛋黄双壳球。有趣的是，当作为锂离子电池的阳极材料进行测试时，具有蛋黄壳结构的 MnCo2O4 亚微米球在这些多层次内部结构中表现出最佳性能，因为这些结构不仅可以提供高接触面积，而且还可以保持稳定的结构。

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具有多层次内部结构的中空 MnCo2O4 亚微米球：从介孔球到蛋黄-双壳结构。

Hollow MnCo2O4 submicrospheres with multilevel interiors: from mesoporous spheres to yolk-in-double-shell structures.

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