2018
DOI: 10.1002/aenm.201802087
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Flexible Nitrogen‐Doped 2D Titanium Carbides (MXene) Films Constructed by an Ex Situ Solvothermal Method with Extraordinary Volumetric Capacitance

Abstract: A facile and controllable strategy, which combines solvothermal treatment with ex situ nitrogen doping by using urea saturated alcohol solution or monoethanolamine as nitrogen source, is used to prepare flexible, freestanding, and compact nitrogen‐doped delaminated Ti3C2 (abbreviated N‐Ti3C2) film electrodes for symmetric electrochemical capacitors (ECs). Compared with the N sites from in situ N solid solution doping, those of ex situ N solvothermal doping enable larger contributions to the capacitance through… Show more

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Cited by 252 publications
(155 citation statements)
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“…An intense (002) diffraction peak at around 6.5° is observed in the XRD pattern of the pure MXene in Figure 2f, corresponding to an interlayer spacing of ≈1.4 nm. [39] The low intensity and broad diffraction peak at 28.3° is attributed to the low crystallinity, hydrous RuO 2 . In contrast, the XRD pattern of the RuO 2 @MXene nanocomposite exhibited a clear shift downward in the (002) peak from ≈6.5° to ≈6.1°, corresponding to an increase of 0.09 nm in the spacing between MXene layers (inset in Figure 2f).…”
Section: Resultsmentioning
confidence: 99%
“…An intense (002) diffraction peak at around 6.5° is observed in the XRD pattern of the pure MXene in Figure 2f, corresponding to an interlayer spacing of ≈1.4 nm. [39] The low intensity and broad diffraction peak at 28.3° is attributed to the low crystallinity, hydrous RuO 2 . In contrast, the XRD pattern of the RuO 2 @MXene nanocomposite exhibited a clear shift downward in the (002) peak from ≈6.5° to ≈6.1°, corresponding to an increase of 0.09 nm in the spacing between MXene layers (inset in Figure 2f).…”
Section: Resultsmentioning
confidence: 99%
“…By modifying the surface chemistry and/or doping heteroatoms, the theoretical capacitance of MXene can be pushed further. For example, Yang et al successfully fabricated flexible and freestanding N‐doped Ti 3 C 2 T x films through solvothermal treatment. The resultant nitrogen‐doped Ti 3 C 2 T x films exhibited an ultrahigh capacitance of 2836 F cm −3 (927 F g −1 ) at 5 mV s −1 in the 3 m H 2 SO 4 electrolyte, being the record for all known MXene‐based materials …”
Section: Properties Of Mxenesmentioning
confidence: 99%
“…We note that specifying the scan rate when reporting the capacitance is necessary, since the scan rate heavily affect the ion diffusion kinetics and thus the utilization of active sites. On the other hand, the specific capacitance of Ti 3 C 2 T x can be greatly improved by increasing the redox active sites such as nitrogen doping, enlarging the interlayer spacing, and/or mixing with pseudocapacitive materials (i.e., metal oxide) …”
Section: High‐performance Supercapacitorsmentioning
confidence: 99%
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