Journal article
Electrochemical Characteristics of Vertically-Aligned Ti 3 C 2 Nanosheet Electrode for High-Speed Charge/Discharge Supercapacitors
Meeting abstracts (Electrochemical Society), v MA2019-02(3), pp 146-146
01 Sep 2019
Abstract
Two-dimensional titanium carbide (Ti
3
C
2
) nanosheets have recently received attention as a supercapacitor electrode material capable of achieving high capacity and rapid charge-discharge due to psudocapacitance associated with redox reaction on the surface
1
. To effectively use the surface of each single Ti
3
C
2
nanosheet, nanosheet electrodes with well-controlled porous structures are necessary to increase ion and electron transfer pathway. Here, electrochemical performance of vertically-aligned Ti
3
C
2
nanosheet electrodes, fabricated based on our proposed nanosheet vertical alignment method combined with electrophoretic deposition and freeze drying
2
, was examined.
To check the importance of the vertically aligned structure to improve electrochemical performance, a vertically-aligned and a horizontally-stacked nanosheet electrode were fabricated by using Ti
3
C
2
nanosheets with lateral size of 200 nm. Cyclic voltammograms of the vertically-aligned electrode show redox peaks at approximately 1.0 V and 1.6 V versus Li/ Li
+
at a scan rate of 2 mV s
−1
, whereas that of the horizontally-stacked electrode gives no significant peaks from Ti
3
C
2
(Figure 1). The capacity obtained from the vertically-aligned electrode was larger than that obtained from horizontally-stacked electrode, suggesting that the vertically-aligned structure improved ion diffusion path to the surface. To investigate the effect of the sheet size on the electrochemical characteristics, vertically-aligned electrodes composed of three different-sized Ti
3
C
2
nanosheets (100, 200 and 600 nm) were prepared and evaluated. It should be noted that the amount of the nanosheets loaded on each electrode was kept constant at 0.68-0.70 mg cm
-2
. The capacity reached approximately 153 (100 nm), 140 (200 nm) and 136 mAh g
−1
(600 nm), at 0.2C current rate, respectively, suggesting that small Ti
3
C
2
nanosheets could effectively improve Li ion accessibility to their active sites compared with large nanosheets. Thus the vertically-aligned Ti
3
C
2
nanosheet electrode could be useful for supercapacitors with high capacity and high-speed charge/discharge ability.
This research was partly supported by the Advanced Low Carbon Technology Research and Development Program (ALCA) (JPMJAL1008) from Japan Science and Technology Agency (JST).
References
M. Naguib, V. N. Mochalin, M. W. Barsoum and Y. Gogotsi, MXenes: A new family of two-dimensional materials,
Adv. Mater.
,
26
, 992 (2014).
D. Mochizuki, R. Tanaka, Y. Ayato, S. Makino and W. Sugimoto, Vertically Aligned Reduced Graphite Oxide Nanosheet Film and its Application in a High-Speed Charge/Discharge Electrochemical Capacitor,
ACS Appl. Energy Mater.
,
2
, 1033 (2019).
Figure 1
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Details
- Title
- Electrochemical Characteristics of Vertically-Aligned Ti 3 C 2 Nanosheet Electrode for High-Speed Charge/Discharge Supercapacitors
- Creators
- Sho HideshimaYusuke KawasakiDaisuke TakimotoYury GogotsiWataru Sugimoto
- Publication Details
- Meeting abstracts (Electrochemical Society), v MA2019-02(3), pp 146-146
- Publisher
- Institute of Physics (IOP)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Other Identifier
- 991019186802004721