2018
DOI: 10.1149/2.1091807jes
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High-Precision Coulometry Studies of the Impact of Temperature and Time on SEI Formation in Li-Ion Cells

Abstract: Electrolyte reacts at the surfaces of charging electrodes during the first cycle of a Li-ion cell (formation). This creates the initial solid electrolyte interphases (SEIs), which passivate the electrodes against further reactions with electrolyte. The quality of the SEIs improve over time as a cell matures. The coulombic efficiencies (CEs) of fresh cells (measured by high-precision coulometry, (HPC)) stabilize after a certain period of time (up to 600 hours), after which different cell chemistries can then be… Show more

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Cited by 35 publications
(33 citation statements)
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“…As aging continues during cycling, researchers believe that the inorganic portions of SEIs also increase as LiF (can be used as an indicator of SEI maturation) is produced through LiPF 6 reacting with lithium carbonates (Eqs. 7, 8) [37].…”
Section: Seimentioning
confidence: 99%
See 1 more Smart Citation
“…As aging continues during cycling, researchers believe that the inorganic portions of SEIs also increase as LiF (can be used as an indicator of SEI maturation) is produced through LiPF 6 reacting with lithium carbonates (Eqs. 7, 8) [37].…”
Section: Seimentioning
confidence: 99%
“…Based on this, this review will also provide a complete picture of the aging of graphite anodes that can affect both electrodes in battery cells based on degradation mechanisms and effective mitigation strategies. Furthermore, the solid electrolyte interface (SEI) is a film that forms on graphite anode surfaces during initial charging [36][37][38][39] and thickens in subsequent cycles, which can protect and impede anodes and is vital in the discussion of the aging behaviors of graphite anodes. Therefore, detailed mechanisms of anode SEIs are also reviewed to supplement previously published reviews.…”
Section: Introductionmentioning
confidence: 99%
“…In fact, previously developed SEI formation protocols involve holding cells at elevated temperatures for hours to optimize this evolution for improved battery cell performance. 60 In order to probe SEI evolution, we performed simulations beginning with equal amounts of Li + EC, LEDC, LEMC, Li 2 CO 3 , and Li 2 C 2 O 4 at an elevated temperature of 423.15K (150 °C) to accelerate decomposition reactions with a tunneling barrier of D = 10 Å, approximating an already-formed and partially electronically insulating SEI. The rapid decoordination/re-coordination reactions with Li + were removed in order to allow us to access longer time scales of ≈ 1s; because all initial species are fully lithiated, this should not adversely affect the availability of Li + in the simulation.…”
Section: Effect Of Varying Electrolyte Impuritiesmentioning
confidence: 99%
“…The CE typically begins smaller and increases approaching 1, as the initial formation of the SEI causes a large discrepancy, which decreases as the SEI matures. 34 Typical values of the CE are 499% after initial SEI formation and state-of-the-art Li-ion batteries show CEs 499.9% and these are the batteries that can last up to 10 years in commercial settings. Thus, it is completely uninformative to present the CE on a scale of 0-100%, but nonetheless this practice is common and leaves the reader unable to evaluate the CE properly.…”
Section: Extracting Lifetime With Coulombic Efficiencymentioning
confidence: 99%