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mxene academic
position: home > mxene academic > mxene preparation

Researchers Huang Qing and Lin Zifeng collaborated on Nature Materials: Lewis Molten Salt-Free Preparation of MXene

source:beike new material Views:5056time:2020-08-10 QQ Academic Group: 1092348845

The rapidly growing two-dimensional material family transition metal carbonitrides ( MXenes ) have attracted attention as energy storage materials. MXenes mainly by containing Al of the MAX phase  ( where A = Al) prepared by dissolving the fluorine-containing solution, most other MAX phase it has not been explored.

Achievements

   Recently, Ningbo materials of Huang Qing researcher , Sichuan University of Linzi Feng researcher and Xiaoli Zhao , Professor and University of Toulouse, France ‘s Patrice Simon professor in the internationally renowned journal Nature Materials published entitled MXene at The Frameworks the Promote Growth and Stability of LiF-Rich Solid−Electrolyte Interphases on Silicon Nanoparticle Bundles  . Lewis acid proposed molten salt etch MAX phase synthesis 2D MXene general strategy, and through non-conventional MAX phase ( , such as Si, Zn and Ga ) synthesized MXenes verify. Ti 3 C 2 obtained by this meltingX  MXene negative electrode of Li + storage capacity of up to 738 C G -1  (205 mAh G -1 ) , high charge-discharge rate . 1 M This route of synthesizing MXenes through molten salt has great application potential in the preparation of highly efficient electrochemical energy storage anode materials.

Figure  1  Schematic diagram of MXene preparation.

Figure  2 The appearance of  MXene .

Fig.  3.  The route of etching the MAX phase by the molten salt of Lewis acid .


Figure  4  shows the electrochemical performance of the MXene electrode.

in conclusion

       In summary, the MXenes anode prepared by the molten salt method has great potential in electrochemical energy storage devices batteries and lithium ion capacitors )  . The proposed Lewis acid corrosion route can be extended to a variety of precursors to prepare MXenes , and Regulate its surface chemical properties.


Original link:

https://www.nature.com/articles/s41563-020-0657-0

Source: MXene Academic


 

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