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From Li‐Ion Batteries toward Na‐Ion Chemistries: Challenges and Opportunities

Kudakwashe Chayambuka, Grietus Mulder, Dmitri L. Danilov, Peter H. L. Notten

2020Advanced Energy Materials654 citationsDOIOpen Access PDF

Abstract

Abstract Among the existing energy storage technologies, lithium‐ion batteries (LIBs) have unmatched energy density and versatility. From the time of their first commercialization in 1991, the growth in LIBs has been driven by portable devices. In recent years, however, large‐scale electric vehicle and stationary applications have emerged. Because LIB raw material deposits are unevenly distributed and prone to price fluctuations, these large‐scale applications have put unprecedented pressure on the LIB value chain, resulting in the need for alternative energy storage chemistries. The sodium‐ion battery (SIB) chemistry is one of the most promising “beyond‐lithium” energy storage technologies. Herein, the prospects and key challenges for the commercialization of SIBs are discussed. By comparing the technological evolutions of both LIBs and SIBs, key differences between the two battery chemistries are unraveled. Based on outstanding results in power, cyclability, and safety, the path toward SIB commercialization is seen imminent.

Topics & Concepts

CommercializationEnergy storageMaterials scienceNanotechnologyEnergy densityBattery (electricity)Lithium (medication)Key (lock)Scale (ratio)Process engineeringEngineering physicsComputer sciencePower (physics)EngineeringPhysicsBusinessEndocrinologyMarketingMedicineQuantum mechanicsComputer securityAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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