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Formation sequence of solid electrolyte interphases and impacts on lithium deposition and dissolution on copper: an <i>in situ</i> atomic force microscopic study

Weiwei Wang, Yu Gu, Hao Yan, Kaixuan Li, Zhaobin Chen, Qi‐Hui Wu, Christine Kranz, Jiawei Yan, Bing‐Wei Mao

2021Faraday Discussions28 citationsDOI

Abstract

AFM observations show that sphere-like Li deposits may have differently conditioned SEI-shells, depending on whether Li nucleation is preceded by the formation of the SEI on Cu. Models of integrated-SEI shells and segmented-SEI shells are proposed to describe SEI shells formed on Li nuclei and SEI shells sequentially formed on Cu and then on Li nuclei, respectively. "Top-dissolution" is observed for both types of shelled Li deposits, but the integrated-SEI shells only show wrinkles, which can be recovered upon Li re-deposition, while the segmented-SEI shells are apparently top-opened due to mechanical stresses introduced at the junctions of the top regions and become "dead" SEIs, which forces subsequent Li nucleation and growth in the interstice of the dead SEIs. Our work provides insights into the impact mechanism of SEIs on the initial stage Li deposition and dissolution on foreign substrates, revealing that SEIs could be more influential on Li dissolution and that the spatial integration of SEI shells on Li deposits is important to improving the reversibility of deposition and dissolution cycling.

Topics & Concepts

DissolutionNucleationX-ray photoelectron spectroscopyElectrolyteDeposition (geology)Lithium (medication)ChemistryCopperChemical engineeringPhysical chemistryElectrodeGeologyOrganic chemistrySedimentMedicineEngineeringEndocrinologyPaleontologyAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced Battery Technologies Research
Formation sequence of solid electrolyte interphases and impacts on lithium deposition and dissolution on copper: an <i>in situ</i> atomic force microscopic study | Litcius