Recent advances on materials for lithium-ion batteries
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TLDR
This review focuses on the different materials recently developed for the different battery components—anode, cathode, and separator/electrolyte—in order to further improve LIB systems and shows that the development of advanced materials is not only focused on improving efficiency but also on the application of more environmentally friendly materials.Abstract:
Environmental issues related to energy consumption are mainly associated with the strong dependence on fossil fuels. To solve these issues, renewable energy sources systems have been developed as well as advanced energy storage systems. Batteries are the main storage system related to mobility, and they are applied in devices such as laptops, cell phones, and electric vehicles. Lithium-ion batteries (LIBs) are the most used battery system based on their high specific capacity, long cycle life, and no memory effects. This rapidly evolving field urges for a systematic comparative compilation of the most recent developments on battery technology in order to keep up with the growing number of materials, strategies, and battery performance data, allowing the design of future developments in the field. Thus, this review focuses on the different materials recently developed for the different battery components—anode, cathode, and separator/electrolyte—in order to further improve LIB systems. Moreover, solid polymer electrolytes (SPE) for LIBs are also highlighted. Together with the study of new advanced materials, materials modification by doping or synthesis, the combination of different materials, fillers addition, size manipulation, or the use of high ionic conductor materials are also presented as effective methods to enhance the electrochemical properties of LIBs. Finally, it is also shown that the development of advanced materials is not only focused on improving efficiency but also on the application of more environmentally friendly materials.read more
Citations
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Recent advances in lithium-ion battery separators with reversible/irreversible thermal shutdown capability
TL;DR: In this article, the authors provide a comprehensive analysis of the technologies employed to enhance the safety of lithium-ion separators via highlighting the recent achievements in separators with irreversible thermal protection fabricated by different methods and mechanisms.
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Metal organic framework modified poly(vinylidene fluoride-co-hexafluoropropylene) separator membranes to improve lithium-ion battery capacity fading
J.C. Barbosa,Rodrigues Gonçalves,and Jose L. Valverde,Pedro Martins,Viktor I. Petrenko,Markó Márton,Arkaitz Fidalgo-Marijuan,Roberto Fernández de Luis,C.M. Costa,Senenxtu Lanceros-Mendez +9 more
TL;DR: In this paper , different poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) / metal-organic framework (MOF) based separators were prepared using three distinct MOFs, and the properties of these membranes were studied.
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Evaluation of mechanical properties of multilayer graphyne-based structures as anode materials for lithium-ions batteries
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Silk fibroin and sericin polymer blends for sustainable battery separators
TL;DR: In this paper , the effect of different sericin relative content on the physicochemical properties of the separator membranes and on the electrochemical performance of the corresponding batteries with lithium iron phosphate (LFP) as cathodes has been reported.
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Sustainable Lithium‐Ion Battery Separator Membranes Based on Carrageenan Biopolymer
João P. Serra,Arkaitz Fidalgo-Marijuan,João Teixeira,Loic Hilliou,Renato Ferreira Gonçalves,Karmele Urtiaga,A. Gutierrez-Pardo,Frederic Aguesse,Senentxu Lanceros-Méndez,Carlos M. Costa +9 more
TL;DR: In this paper , the iota-carrageenan biopolymer membranes were developed by freeze-drying and its morphology, thermal, mechanical, and electrochemical properties were evaluated as a function of polymer concentration in the solution.
References
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