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Chemical Crossover Accelerates Degradation of Lithium Electrode in High Energy Density Rechargeable Lithium–Oxygen Batteries

Shôichi Matsuda, Manai Ono, Hitoshi Asahina, Shin Kimura, Emiko Mizuki, Eiki Yasukawa, Shoji Yamaguchi, Yoshimi Kubo, Kohei Uosaki

2023Advanced Energy Materials34 citationsDOIOpen Access PDF

Abstract

Abstract Lithium‐oxygen batteries (LOBs) are promising next‐generation rechargeable battery candidates due to theoretical energy densities that exceed those of conventional lithium‐ion batteries. Although LOB with high cell level energy density has been demonstrated under lean electrolyte and high areal capacity conditions, their cycle life is still poor, and the cell degradation mechanism remains unclear. In the present study, by use of a three‐electrode electrochemical setup and in situ MS analytical techniques, it is revealed that the reaction efficiency of the negative lithium electrode largely decreases due to chemical crossover from the positive oxygen electrode side, such as H 2 O and CO 2 . Based on this mechanistic understanding, a LOB with an ultra‐lightweight flexible ceramic‐based solid‐state separator with 6 µm thickness that effectively protects the lithium electrode against chemical crossover without diminishing the energy density of LOBs is fabricated. Notably, a 400 Wh kg −1 class LOB exhibits a stable discharge/charged process for >20 cycles. The strategy demonstrated in this study sheds light on the direction for the practical implementation of LOBs with high energy densities and long cycle lives.

Topics & Concepts

Materials scienceElectrolyteElectrodeLithium (medication)Separator (oil production)Chemical engineeringElectrochemistryBattery (electricity)Energy densityOxygen evolutionDegradation (telecommunications)NanotechnologyComputer scienceEngineering physicsChemistryPhysical chemistryPhysicsThermodynamicsTelecommunicationsQuantum mechanicsEngineeringMedicineEndocrinologyPower (physics)Advanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced battery technologies research
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