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Understanding the separator pore size inhibition effect on lithium dendrite via phase-field simulations 被引量:3

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摘要 Dendrite growth in lithium-ion batteries may bring thermal run-away especially at high current densities,which remains the major bottleneck to implement safe and fast charging for portable electronic devices or electronical vehicles.Designing dendrite inhibition separators with proper pore size is considered to be one of the most promising strategies to guarantee the battery safety.However,due to the impossible observation of lithium-ion distribution under separator by experiments,the underlying dendrite inhibition mechanism is still not fully understood.Here,we apply the phase-field model,which takes the separator phase into account to construct the electrochemical system total free energy,to study the ion re-distribution behavior of porous separator and understand the pore size inhibition effect on lithium dendrite.The numerical results indicate that separator with smaller pore size is beneficial to smoother electrodeposition,since the lithium-ion concentration on the electrode surface is more uniform under denser separator pores,when their sizes is larger than the critical nucleus.The proposed model could capture the physicochemical process of electrodeposition under multiphase structures,so it could also be used to explore dendrite growth under composite electrodes and composite solid electrolytes.
出处 《Chinese Chemical Letters》 SCIE CAS CSCD 2022年第6期3287-3290,共4页 中国化学快报(英文版)
基金 the National Natural Science Foundation of China(Nos.52102280,U2030206,11874254,51622207) Shanghai Pujiang Program(No.2019PJD016) Foundation of China Academy of Engineering Physics-Key Laboratory of Neutron Physics(No.2019BB07) Scientific Research Project of Zhijiang Laboratory(No.2021PE0AC02) funding from King Abdullah University of Science and Technology(KAUST)。
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