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mxene academic
position: home > mxene academic > mxene catalysis

AFM: Ultra-stable MXene @ Pt / SWCNT nanocatalyst

source:beike new material Views:4113time:2020-08-10 QQ Academic Group: 1092348845

【Research Background】

Hydrogen (H 2 ) has the advantage of clean energy, and its energy density is as high as 120-140 MJ kg −1 . Its environmentally friendly production is the key to using this clean energy, and the hydrogen evolution reaction (HER) represents an efficient power conversion route. In the absence of a suitable catalyst, high overpotential always leads to low efficiency. Although great efforts have been invested to find non-noble metal catalysts that are cheaper and easier to use for HER, unfortunately, due to the instantaneous adsorption of H by the change in free energy, the change in free energy is less than the low overpotential and rapid Pt dynamics. Therefore, it is necessary to find an efficient platinum-based nanocatalyst.


【Achievement Introduction】

Recently, the team of Professor Wang Xiaohui of the Institute of Metal Research , Chinese Academy of Sciences published a research paper titled: Ultrastable MXene @ Pt / SWCNTs‘ Nanocatalysts for Hydrogen Evolution Reactio in the internationally renowned academic journal  Advanced Functional Materials .


【Graphic introduction】

Figure 1. Preparation of a) Ti 3 C 2 T x MXene colloidal suspension and b) Preparation of MXene @ Pt / SWCNTs nanocatalyst .

Figure II .  Analysis of morphology and elements.

Figure 3. High magnification SEM images of a) SM, c) SM-1pt, e) SM-5pt b) SM, d) SM-1pt, f) SM-5pt low-power SEM images.

Figure IV Preparation of Sample XPS analysis.

FIG five Hydrogen production electrochemical catalytic performance comparison test.

Figure VI Analysis of Kinetic.

 

【Summary of this article】

In summary, this work utilizes the particularity of Ti 3 C 2 T x MXene to maintain its physicochemical properties after reducing platinum complex ions, and the characteristics of SWCNTs as a conductive binder to construct graded Pt-MXene CNTs heterostructure high-performance HER catalyst.


Literature link:

DOI: 10.1002 / adfm.202000693

Source: MXene Frontier 


 

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