2017
DOI: 10.1002/aenm.201602725
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Achieving High Pseudocapacitance of 2D Titanium Carbide (MXene) by Cation Intercalation and Surface Modification

Abstract: Supercapacitors attract great interest because of the increasing and urgent demand for environment‐friendly high‐power energy sources. Ti3C2, a member of MXene family, is a promising electrode material for supercapacitors owing to its excellent chemical and physical properties. However, the highest gravimetric capacitance of the MXene‐based electrodes is still relatively low (245 F g−1) and the key challenge to improve this is to exploit more pseudocapacitance by increasing the active site concentration. Here,… Show more

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Cited by 583 publications
(488 citation statements)
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“…Moreover, the method can also increase the layer spacing of MXenes. [83] Figure 11e shows that the capacitance of 400-KOH-Ti 3 C 2 is significantly increased, especially when expressed as the ratio of inserted capacitance, due to the increase of the interlayer spacing.…”
Section: Mxene/conductive Polymer-based Supercapacitor Electrodesmentioning
confidence: 97%
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“…Moreover, the method can also increase the layer spacing of MXenes. [83] Figure 11e shows that the capacitance of 400-KOH-Ti 3 C 2 is significantly increased, especially when expressed as the ratio of inserted capacitance, due to the increase of the interlayer spacing.…”
Section: Mxene/conductive Polymer-based Supercapacitor Electrodesmentioning
confidence: 97%
“…[225] As for MXenes materials, the major 2D M n+1 X n candidates show high metallic conductivity, and the 2D M n+1 X n T x varieties display semimetallic conductivity from the presence of the T groups. [83] It is well known that the structure of the ultrathin layers benefits performance for transferring and storing Li + ions. However the electron delocalization is affected by the functionalized groups.…”
Section: Lithium-ion Batteries Applications Of Mxene-based Compositesmentioning
confidence: 99%
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