MXene materials: Pioneering sustainable energy storage solutions

Minghua Chen; Qi Fan; Ke Chen; Eva Majkova; Qing Huang; Kun Liang

doi:10.1002/cnl2.135

Carbon Neutralization ›› 2024, Vol. 3 ›› Issue (4) : 493 -500. DOI: 10.1002/cnl2.135

PERSPECTIVE

MXene materials: Pioneering sustainable energy storage solutions

Minghua Chen ¹^,²
, Qi Fan ¹
, Ke Chen ¹^,³
, Eva Majkova ⁴
, Qing Huang ¹^,³
, Kun Liang ¹^,³^,^†

Author information +

History +

PDF (1063KB)

Abstract

MXene materials have emerged as promising candidates for solving sustainable energy storage solutions due to their unique properties and versatility. MXene materials can not only be used directly as electrode materials but can also be used as functional materials to solve problems such as poor conductivity of electrode materials, severe volume expansion, dendrites, and dissolution of electrode materials. This perspective paper explores the potential applications of MXene materials for sustainable energy storage solutions, emphasizing their distinct characteristics and applications across various domains.

Keywords

interlayers / MXene / seperators / sustainable energy storage

Cite this article

Download citation ▾

Minghua Chen, Qi Fan, Ke Chen, Eva Majkova, Qing Huang, Kun Liang. MXene materials: Pioneering sustainable energy storage solutions. Carbon Neutralization, 2024, 3(4): 493-500 DOI:10.1002/cnl2.135

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	J. Luo, E. Matios, H. Wang, X. Tao, W. Li, InfoMat 2020, 2, 1057.

[2]	A. Ahmed, S. Sharma, B. Adak, M. M. Hossain, A. M. LaChance, S. Mukhopadhyay, L. Sun, InfoMat 2022, 4, e12295.

[3]	A. VahidMohammadi, J. Rosen, Y. Gogotsi, Science 2021, 372, eabf1581.

[4]	M. Naguib, M. Kurtoglu, V. Presser, J. Lu, J. Niu, M. Heon, L. Hultman, Y. Gogotsi, M. W. Barsoum, Adv. Mater. 2011, 23, 4248.

[5]	H. Ding, Y. Li, M. Li, K. Chen, K. Liang, G. Chen, J. Lu, J. Palisaitis, P. O. Å. Persson, P. Eklund, L. Hultman, S. Du, Z. Chai, Y. Gogotsi, Q. Huang, Science 2023, 379, 1130.

[6]	V. Kamysbayev, A. S. Filatov, H. Hu, X. Rui, F. Lagunas, D. Wang, R. F. Klie, D. V. Talapin, Science 2020, 369, 979.

[7]	X. Xu, Y. Zhang, H. Sun, J. Zhou, F. Yang, H. Li, H. Chen, Y. Chen, Z. Liu, Z. Qiu, D. Wang, L. Ma, J. Wang, Q. Zeng, Z. Peng, Adv. Electron. Mater. 2021, 7, 2000967.

[8]	Z. Otgonbayar, S. Yang, I. J. Kim, W. C. Oh, Chem. Eng. J. 2023, 472, 144801.

[9]	B. Mendoza-Sanchez, Y. Gogotsi, Adv. Mater. 2016, 28, 6104.

[10]	Y. Chen, H. Yang, Z. Han, Z. Bo, J. Yan, K. Cen, K. K. Ostrikov, Energy Fuels 2022, 36, 2390.

[11]	X. Li, Z. Huang, C. E. Shuck, G. Liang, Y. Gogotsi, C. Zhi, Nat. Rev. Chem. 2022, 6, 389.

[12]	N. K. Chaudhari, H. Jin, B. Kim, D. San Baek, S. H. Joo, K. Lee, J. Mater. Chem. A 2017, 5, 24564.

[13]	W. Bao, L. Liu, C. Wang, S. Choi, D. Wang, G. Wang, Adv. Energy Mater. 2018, 8, 1702485.

[14]	G. Jiang, N. Zheng, X. Chen, G. Ding, Y. Li, F. Sun, Y. Li, Chem. Eng. J. 2019, 373, 1309.

[15]	T. Qiu, G. Li, Y. Shao, K. Jiang, F. Zhao, F. Geng, Carbon Energy 2020, 2, 624.

[16]	Y. An, Y. Tian, C. Liu, S. Xiong, J. Feng, Y. Qian, ACS Nano 2021, 15, 15259.

[17]	C. Zhang, S. J. Kim, M. Ghidiu, M.-Q. Zhao, M. W. Barsoum, V. Nicolosi, Y. Gogotsi, Adv. Funct. Mater. 2016, 26, 4143.

[18]	P. Zhang, Q. Zhu, Z. Guan, Q. Zhao, N. Sun, B. Xu, ChemSusChem 2020, 13, 1621.

[19]	Y. Qi, K. Sarang, J. Lutkenhaus, E.-S. Oh, J. Power Sources 2021, 506, 230138.

[20]	X. Liang, A. Garsuch, L. F. Nazar, Angew. Chem. Int. Ed. 2015, 54, 3979.

[21]	X. Geng, C. Liu, C. Zhao, Z. Jiang, E. G. Lim, Y. Wang, I. Mitrovic, L. Yang, P. Song, Electrochim. Acta 2023, 441, 141877.

[22]	D. Guo, F. Ming, D. B. Shinde, L. Cao, G. Huang, C. Li, Z. Li, Y. Yuan, M. N. Hedhili, H. N. Alshareef, Z. Lai, Adv. Funct. Mater. 2021, 31, 2101194.

[23]	C. Wei, M. Tian, M. Wang, Z. Shi, L. Yu, S. Li, Z. Fan, R. Yang, J. Sun, ACS Nano 2020, 14, 16073.

[24]	Z. R. Wang, C. L. Wei, H. Y. Jiang, Y. C. Zhang, K. D. Tian, Y. Li, X. L. Zhang, S. L. Xiong, C. H. Zhang, J. K. Feng, Adv. Mater. 2023, 36, 2306015.

[25]	C. H. Wang, N. Kurra, M. Alhabeb, J.-K. Chang, H. N. Alshareef, Y. Gogotsi, ACS Omega 2018, 3, 12489.

[26]	L. Yin, G. Xu, P. Nie, H. Dou, X. Zhang, Chem. Eng. J. 2018, 352, 695.

[27]	Y. An, Y. Tian, J. Feng, Y. Qian, Mater. Today 2022, 57, 146.

[28]	J. Song, D. Su, X. Xie, X. Guo, W. Bao, G. Shao and G. Wang, ACS Appl. Mater. Interfaces 2016, 8, 29427.

[29]	Y. Hou, Z. Huang, Z. Chen, X. Li, A. Chen, P. Li, Y. Wang, C. Zhi, Nano Energy 2022, 97, 107204.

[30]	Y. Zhang, Z. Cao, S. Liu, Z. Du, Y. Cui, J. Gu, Y. Shi, B. Li, S. Yang, Adv. Electron. Mater. 2022, 12, 2103979.

[31]	Y. Tian, Y. An, C. Wei, B. Xi, S. Xiong, J. Feng, Y. Qian, ACS Nano 2019, 13, 11676.

[32]	X. Zhao, M. Zhu, C. Tang, K. Quan, Q. Tong, H. Cao, J. Jiang, H. Yang, J. Zhang, J. Colloid Interface Sci. 2022, 620, 478.

[33]	H. Tang, W. Li, L. Pan, C. P. Cullen, Y. Liu, A. Pakdel, D. Long, J. Yang, N. McEvoy, G. S. Duesberg, V. Nicolosi, C. J. Zhang, Adv. Sci. 2018, 5, 1800502.

[34]	X. Zhong, D. Wang, J. Sheng, Z. Han, C. Sun, J. Tan, R. Gao, W. Lv, X. Xu, G. Wei, X. Zou, G. Zhou, Nano Lett. 2022, 22, 1207.

[35]	C. Zhang, S. H. Park, A. Seral-Ascaso, S. Barwich, N. McEvoy, C. S. Boland, J. N. Coleman, Y. Gogotsi, V. Nicolosi, Nat. Commun. 2019, 10, 849.

[36]	S. Cho, D. Y. Kim, Y. Seo, Adv. Mater. Interfaces 2020, 7, 2000750.

[37]	H. Li, X. Chen, E. Zalnezhad, K. N. Hui, K. S. Hui, M. J. Ko, J. Ind. Eng. Chem. 2020, 82, 309.

[38]	M. Okubo, A. Sugahara, S. Kajiyama, A. Yamada, Acc. Chem. Res. 2018, 51, 591.

[39]	Y. H. Liu, C. Y. Wang, S. L. Yang, F. F. Cao, H. Ye, J. Energy Chem. 2022, 66, 429.

[40]	X. Han, W. Zhou, M. Chen, J. Chen, G. Wang, B. Liu, L. Luo, S. Chen, Q. Zhang, S. Shi, C. P. Wong, J. Energy Chem. 2022, 67, 727.

[41]	Y. T. Liu, P. Zhang, N. Sun, B. Anasori, Q. Z. Zhu, H. Liu, Y. Gogotsi, B. Xu, Adv. Mater. 2018, 30, 1707334.

[42]	J. Xu, T. Peng, X. Qin, Q. Zhang, T. Liu, W. Dai, B. Chen, H. Yu, S. Shi, J. Mater. Chem. A 2021, 9, 14147.

[43]	F. Zhang, X. Guo, P. Xiong, J. Zhang, J. Song, K. Yan, X. Gao, H. Liu, G. Wang, Adv. Electron. Mater. 2020, 10, 2000446.

[44]	Y. Hu, X. Zhu, L. Wang, ChemSusChem 2020, 13, 1366.

[45]	C. L. Wei, B. J. Xi, P. Wang, Y. Z. Liang, Z. R. Wang, K. D. Tian, J. K. Feng, S. L. Xiong, Adv. Mater. 2023, 35, 2303780.

[46]	C. L. Wei, Y. Tao, Y. L. An, Y. Tian, Y. C. Zhang, J. K. Feng, Y. T. Qian, Adv. Funct. Mater. 2020, 30, 2004613.

[47]	Y. An, Y. Tian, Q. Man, H. Shen, C. Liu, Y. Qian, S. Xiong, J. Feng, Y. Qian, ACS Nano 2022, 16, 6755.

[48]	P. Liu, W. Liu, K. Liu, Carbon Energy 2022, 4, 60.

[49]	Z. Wang, H. Jiang, Y. Zhang, Y. An, C. Wei, L. Tan, S. Xiong, Y. Qian, J. Feng, Adv. Funct. Mater. 2023, 33, 2210184.

[50]	E. Y. Shin, S. B. Choi, J. H. Lee, B. Yoo, C. J. Han, S. H. Park, J. H. Noh, J. W. Kim, H. J. Son, Sol. RRL 2023, 7, 2201130.

[51]	R. Meng, Q. Deng, C. Peng, B. Chen, K. Liao, L. Li, Z. Yang, D. Yang, L. Zheng, C. Zhang, J. Yang, Nano Today 2020, 35, 100991.

[52]	B. Zhang, C. Luo, G. Zhou, Z. Z. Pan, J. Ma, H. Nishihara, Y. B. He, F. Kang, W. Lv, Q. H. Yang, Adv. Funct. Mater. 2021, 31, 2100793.

[53]	M. Xu, L. Liang, J. Qi, T. Wu, D. Zhou, Z. Xiao, Small 2021, 17, e2007446.

[54]	J. Wang, Z. Zhang, X. Yan, S. Zhang, Z. Wu, Z. Zhuang, W. Q. Han, Nanomicro Lett 2020, 12, 1.

[55]	W. Zhao, Y. Lei, Y. Zhu, Q. Wang, F. Zhang, X. Dong, H. N. Alshareef, Nano Energy 2021, 86, 106120.

RIGHTS & PERMISSIONS

2024 The Authors. Carbon Neutralization published by Wenzhou University and John Wiley & Sons Australia, Ltd.

AI Summary AI Mindmap

PDF (1063KB)

205

Accesses

Citation

Detail

Sections

Recommended

Received	Accepted	Published
2024-01-25	2024-04-24
Issue Date	Revised Date
2025-04-14

About the journal

Aims & scope

Description

Editorial board

Abstracting / indexing

Cover gallery

Contact us

Browse

Just accepted

Online first

Latest issue

All volumes and issues

Collections

Featured articles

Most accessed

Most cited

Collections

Authors & reviewers

Online submisson

Guidelines for authors

Editorial policy

Ethical requirements