Broadening the Voltage Window of 3D-Printed MXene Micro-Supercapacitors with a Hybridized Electrolyte
Abstract
:1. Introduction
2. Results and Discussion
2.1. Material Fabrication and Characterization
2.2. Characterization of NaCl/H2O/EG Hybrid Electrolytes
2.3. Electrochemical Performance of MXene MSCs
2.4. Integrative Electrochemical Performance of MSCs
3. Experimental Section
3.1. Fabrication of Ti3C2Tx MXene Ink
3.2. Preparation of Gel Electrolyte
3.3. Fabrication of MSCs via 3D Printing
3.4. Material Characterization
3.5. Electrochemical Measurements
4. Conclusions
Supplementary Materials
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Data Availability Statement
Conflicts of Interest
References
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© 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
Share and Cite
Jiang, X.; Jia, H.; Chen, X.; Li, J.; Chen, Y.; Jia, J.; Zhao, G.; Yu, L.; Zhu, G.; Zhu, Y. Broadening the Voltage Window of 3D-Printed MXene Micro-Supercapacitors with a Hybridized Electrolyte. Molecules 2024, 29, 1393. https://doi.org/10.3390/molecules29061393
Jiang X, Jia H, Chen X, Li J, Chen Y, Jia J, Zhao G, Yu L, Zhu G, Zhu Y. Broadening the Voltage Window of 3D-Printed MXene Micro-Supercapacitors with a Hybridized Electrolyte. Molecules. 2024; 29(6):1393. https://doi.org/10.3390/molecules29061393
Chicago/Turabian StyleJiang, **n, Haowen Jia, Xuan Chen, Jiajia Li, Yanling Chen, ** Jia, Guangzhen Zhao, Lianghao Yu, Guang Zhu, and Yuanyuan Zhu. 2024. "Broadening the Voltage Window of 3D-Printed MXene Micro-Supercapacitors with a Hybridized Electrolyte" Molecules 29, no. 6: 1393. https://doi.org/10.3390/molecules29061393