Sustainable Biomass-Derived Carbon Electrodes for Potassium and Aluminum Batteries : Conceptualizing the Key Parameters for Improved Performance
Simões Dos Reis, G., Petnikota, S., Subramaniyam, C. M., Pequeno de Oliveira, H., Larsson, S., Thyrel, M., Lassi, U., & García Alvarado, F. (2023). Sustainable Biomass-Derived Carbon Electrodes for Potassium and Aluminum Batteries : Conceptualizing the Key Parameters for Improved Performance. Nanomaterials, 13(4), Article 765. https://doi.org/10.3390/nano13040765
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2023Copyright
© 2023 by the authors. Licensee MDPI, Basel, Switzerland
The development of sustainable, safe, low-cost, high energy and density power-density energy storage devices is most needed to electrify our modern needs to reach a carbon-neutral society by ~2050. Batteries are the backbones of future sustainable energy sources for both stationary off-grid and mobile plug-in electric vehicle applications. Biomass-derived carbon materials are extensively researched as efficient and sustainable electrode/anode candidates for lithium/ sodium-ion chemistries due to their well-developed tailored textures (closed pores and defects) and large microcrystalline interlayer spacing and therefore opens-up their potential applications in sustainable potassium and aluminum batteries. The main purpose of this perspective is to brief the use of biomass residues for the preparation of carbon electrodes for potassium and aluminum batteries annexed to the biomass-derived carbon physicochemical structures and their aligned electrochemical properties. In addition, we presented an outlook as well as some challenges faced in this promising area of research. We believe that this review enlightens the readers with useful insights and a reasonable understanding of issues and challenges faced in the preparation, physicochemical properties and application of biomass-derived carbon materials as anodes and cathode candidates for potassium and aluminum batteries, respectively. In addition, this review can further help material scientists to seek out novel electrode materials from different types of biomasses, which opens up new avenues in the fabrication/development of next-generation sustainable and high-energy density batteries.
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The content of the publication reflects only the author’s view. The funder is not responsible for any use that may be made of the information it contains.
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This research was funded by Bio4Energy—a Strategic Research Environment appointed by the Swedish government, and the Swedish University of Agricultural Sciences. The authors also thank EU/Interreg Aurora (GreenBattery project grant no. 20357574). The researchers at Universidad San Pablo CEU thank the financial support of MCIN/AEI/10.13039/501100011033 (Project PID2019-106662RB-C41).License
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