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- In relation to this article, we declare that there is no conflict of interest.
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Received June 11, 2019
Accepted August 15, 2019
- This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright © KIChE. All rights reserved.
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Two-dimensional nanomaterials as emerging pseudocapacitive materials
School of Chemical Engineering, Sungkyunkwan University (SKKU), Seoburo 2066, Jangan-gu, Suwon 16419, Korea
phs0727@skku.edu
Korean Journal of Chemical Engineering, October 2019, 36(10), 1557-1564(8), 10.1007/s11814-019-0364-1
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Abstract
Supercapacitors have attracted significant attention as energy storage devices owing to their high power density, high charging rate, and long cycle life. However, they possess low energy density, which limits their practical applications. To address this issue, various high-capacitance materials, such as transition metal oxides and conducting polymers, have been investigated. Recent pioneering studies have described the emergent pseudocapacitance in twodimensional (2D) nanomaterials, which are of significant interest because of their unique structure, remarkable physical properties, and tunable surface chemistry. Through this brief review, we present our contributions to this new class of pseudocapacitive 2D nanomaterials: oxidized black phosphorous, transition metal dichalcogenides, and MXene. The surface-capacitive charge storage mechanism of 2D nanomaterials is understood through in situ spectroscopic and computational analyses. Moreover, the corresponding capacitive features and performances are maximized by nanostructuring, nanoarchitecturing, and compositional control.
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Yu X, Yun S, Yeon JS, Bhattacharya P, Wang K, Lee SW, Hu X, Park HS, Adv. Eng. Mater., 8, 170293 (2018)
Kumar KS, Choudhary N, Jung Y, Thomas J, ACS Energy Lett., 3, 482 (2018)
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Acerce M, Voiry D, Chhowalla M, Nat. Nanotechnol., 10(4), 313 (2015)
Muller GA, Cook JB, Kim HS, Tolbert SH, Dunn B, Nano Lett., 15, 1911 (2015)
Bissett MA, Worrall SD, Kinloch IA, Dryfe RAW, Electrochim. Acta, 201, 30 (2016)
Mahmood Q, Park SK, Kwon KS, Chang SJ, Hong JY, Shen G, Jung YM, Park TJ, Khang SW, Kim WS, Adv. Eng. Mater., 6, 150111 (2016)
Mahmood Q, Kim MG, Yun S, Bak SM, Yang XQ, Shin HS, Kim WS, Braun PV, Park HS, Nano Lett., 15, 2269 (2015)
Hao CX, Yang BC, Wen FS, Xiang JY, Li L, Wang WH, Zeng ZM, Xu B, Zhao ZS, Liu ZY, Tian YJ, Adv. Mater., 28(16), 3194 (2016)
Chen X, Xu G, Ren X, Li Z, Qi X, Huang K, Zhang H, Huang Z, Zhong J, J. Mater. Chem. A, 5, 6581 (2017)
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