Li^(+) transport in solid electrolyte interphase is recognized as important factor,which has become a research hotspot.Recently,an one-step pore diffusion mechanism for Li^(+) transport through solid electrolyte inter...Li^(+) transport in solid electrolyte interphase is recognized as important factor,which has become a research hotspot.Recently,an one-step pore diffusion mechanism for Li^(+) transport through solid electrolyte interphase was proposed,which was different from previous two-step mechanism.Such one-step pore diffusion process could effectively eliminate the dynamic limitations of Li^(+) transport in solid electrolyte interphase (SEI) for rapid charging process.The work will contribute to the development of rapid charging lithium-ion batteries.展开更多
基金financially supported by the National Natural Science Foundation of China (Nos.52272287, 22268003 and 22202138)the Science and Technology Project of Yunnan (Nos.202305AF150116,202301AT070027 and 230212526080)。
文摘Li^(+) transport in solid electrolyte interphase is recognized as important factor,which has become a research hotspot.Recently,an one-step pore diffusion mechanism for Li^(+) transport through solid electrolyte interphase was proposed,which was different from previous two-step mechanism.Such one-step pore diffusion process could effectively eliminate the dynamic limitations of Li^(+) transport in solid electrolyte interphase (SEI) for rapid charging process.The work will contribute to the development of rapid charging lithium-ion batteries.
