二维碳化锆通过纳米层状 Zr3Al3C5 中 Al3C3 的选择性刻蚀得到。

A Two-Dimensional Zirconium Carbide by Selective Etching of Al3C3 from Nanolaminated Zr3Al3C5.

机构信息

Engineering Laboratory of Specialty Fibers and Nuclear Energy Materials (FiNE), Ningbo Institute of Materials Engineering and Technology, Chinese Academy of Sciences, Ningbo, Zhejiang, 315201, China.

Thin Film Physics Division, Linköping University, IFM, 58183, Linköping, Sweden.

出版信息

Angew Chem Int Ed Engl. 2016 Apr 11;55(16):5008-13. doi: 10.1002/anie.201510432. Epub 2016 Mar 9.

DOI:10.1002/anie.201510432

PMID:26959082

Abstract

The room-temperature synthesis of a new two-dimensional (2D) zirconium-containing carbide, Zr3C2T(z) MXene is presented. In contrast to traditional preparation of MXene, the layered ternary Zr3Al3C5 material instead of MAX phases is used as source under hydrofluoric acid treatment. The structural, mechanical, and electronic properties of the synthesized 2D carbide are investigated, combined with first-principles density functional calculations. A comparative study on the structrual stability of our obtained 2D Zr3C2T(z) and Ti3C2T(z) MXenes at elevated temperatures is performed. The obtained 2D Zr3C2T(z) exhibits relatively better ability to maintain 2D nature and strucural integrity compared to Ti-based Mxene. The difference in structural stability under high temperature condition is explained by a theoretical investigation on binding energy.

摘要

室温下合成了一种新的二维（2D）含锆碳化物 Zr3C2T(z) MXene。与传统的 MXene 制备方法不同，该方法使用层状三元 Zr3Al3C5 材料而不是 MAX 相作为氢氟酸处理的源。通过第一性原理密度泛函计算，研究了合成的二维碳化物的结构、力学和电子性质。对我们获得的二维 Zr3C2T(z) 和 Ti3C2T(z) MXenes 在高温下的结构稳定性进行了比较研究。与基于 Ti 的 MXene 相比，所获得的二维 Zr3C2T(z) 表现出更好的保持二维性质和结构完整性的能力。通过对结合能的理论研究，解释了高温条件下结构稳定性的差异。

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二维碳化锆通过纳米层状 Zr3Al3C5 中 Al3C3 的选择性刻蚀得到。

A Two-Dimensional Zirconium Carbide by Selective Etching of Al3C3 from Nanolaminated Zr3Al3C5.

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