Journal article
High Volumetric Capacitance and Mechanisms of Electrochemical Charge Storage in Two-Dimensional Ti 3 C 2 -Based Mxene
Meeting abstracts (Electrochemical Society), v MA2015-01(1), pp 202-202
29 Apr 2015
Abstract
MXenes, a recently discovered large family of two-dimensional (2D) early transition metal carbides and carbonitrides, have shown much promise in electrochemical energy storage applications, such as battery and supercapacitor electrodes. Here we report on large volumetric capacitance and high rate capability of Ti
3
C
2
T
x
– the most studied MXene to date.
Spontaneous intercalation of a variety of single- and multiply charged cations (such as Li
+
, Na
+
, K
+
, NH
4
+
, Mg
2+
, and Al
3+
)
, together with highly reversible electrochemical insertion of the same cations, has been demonstrated for Ti
3
C
2
T
x
in aqueous electrolytes. Perfect capacitive behavior was observed for Ti
3
C
2
T
x
MXene even at quite high charge and discharge rates,
contradicting to slow intercalation of ions in a specific potential range, which is usually observed in layered materials used in battery applications. In order to understand the mechanism of capacitive charge storage in MXenes, we performed characterization of the material using in-situ spectroscopy, X-ray diffraction and other techniques.
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Details
- Title
- High Volumetric Capacitance and Mechanisms of Electrochemical Charge Storage in Two-Dimensional Ti 3 C 2 -Based Mxene
- Creators
- Maria R. Lukatskaya - #N##N#aDrexel UniversityMichael Ghidiu - #N##N#aDrexel UniversityOlha Mashtalir - #N##N#aDrexel UniversityChang E. Ren - #N##N#aDrexel UniversityMeng-Qiang Zhao - NexenYohan Dall'Agnese - Paul Sabatier UniversityMichel W. Barsoum - #N##N#aDrexel UniversityYury Gogotsi - #N##N#aDrexel University
- Publication Details
- Meeting abstracts (Electrochemical Society), v MA2015-01(1), pp 202-202
- Publisher
- Institute of Physics (IOP)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Other Identifier
- 991019186773404721