Ultrathin MXene Preparation with Repeated Freeze-Thaw Method
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Detailed

 MXene, as a member of a unique family of two-dimensional nanomaterials , combines the advantages of superior electrical conductivity, large specific surface area, and hydrophilicity, and has been widely used in lithium-ion batteries, electrochemical storage systems, electromagnetic interference shielding, and electrical Catalyst, photothermal conversion and other fields.People usually pay close attention to the function of MXene , but ignore the lower yield. The research to improve the productivity of MXene can avoid unnecessary waste and has great practical significance for large-scale production.


Achievements

     Recently, Fudan University, Professor Wu Peiyi well-known in the international journal Advanced Functional Materials published entitled " A Facile, High-Yield, and Freeze-Thaw-and-Assisted Approach to Fabricate MXene with Plentiful Its Wrinkles and the Application in the On-Chip Micro-Supercapacitors " Thesis innovatively proposes to use the repeated freeze-thaw method to open the MXene sheet with the force of freezing expansion of ice crystals. After several cycles, MXene nanosheets with a special wrinkle structure were prepared in a high yield of 39% without ultrasound. After ultrasound treatment, the MXene yield reached a record-breaking 81.4%. Microcapacitors made from this unique MXene nanosheet also exhibit excellent capacitance performance.

FIG . 1 ( the FAT Preparation of Ti . 3 C 2 schematic diagram; ( of Ti . 3 AlC 2is SEM image; ( ) Multilayer - of Ti . 3 C 2 , E, F ) have a significant surface wrinkles FAT- ti . 3 C 2 ; ( m-ti . 3 C 2 after freeze sem image; ( G, H ) the HRTEMFIG; ( the XRD FIG.  


FIG  2 ( ) frozen in liquid nitrogen FAT-MXene, ) freezer FAT-MXene, () an ultrasonic FAT-MXene of TEM FIG; ( DF ) corresponding to its size distribution; ( GI ) corresponding to AFM FIG. And the corresponding thickness profile.

Figure 3 ( UV visible absorption spectrum and ( ) yield of FAT-MXenedispersion with different number of cycles ; ( ) and ( ) are 002 ) peak angle values of FAT-MXene with different number of cycles .

       

FIG . 4 ( MXene TEM of FIG. ( ) or absence FAT circulating m-MXenecomparison chart; ( FAT prepared by FAT-MXene comparison with the reported literature.


FIG . 5 ( ) ultrasound -MXene with FAT-MXene comparison of FIG film ( BC ) of the flexible FAT-MXene film photos; ( DF FAT-MXene film the XRD IV curves and the tensile curves; ( GI ) ultrasound -MXene and ( JL the FAT-MXene film SEMFIG.


Figure 6 ( ac Preparation of MSC ; ( dg ) Photographs of each process, scale is 15 mm.

Fig. 7 ( ab Top view of SEM of m-MSC Test chart of MXene electrode film; ( CV curves at different scanning speeds Charge of m-MSC ofdifferent thickness at constant current and different current density Discharge(GCD) diagram; ( CV curve at a scan rate of 20 mV s −1 ; Volume capacitance of m-MSCs of different thicknesses ; ( m-MSCs of different thicknesses at different current densities the volumetric capacitance; ( the FAT-MXene the MSCComparison of volumetric energy and power density with other reported MSCs .


in conclusion

The MXene sheet was opened by proposing a simple, effective and gentle repeated freeze-thaw method After cycles, the size of Fat-MXene nanosheetswith special wrinkles is larger, and the yield can be as high as 39% Combined with sonication, although the size has been reduced, the yield has been further increased to 81.4% Fat-MXene assembled miniature capacitors have a surface capacitance of up to 23.6 mF cm –2 and a bulk capacitance of 591 mF cm –3 .Excellent electrochemical performance and thus prove the strategy of high quality fat of mesenchymal stem cells. This research opens up a new method to improve the yield of MXene , which is beneficial to further expand the application of MXene . 


Original link:

https://doi.org/10.1002/adfm.201910048

Source: MXene Academic


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