Review—"Knees" in lithium-ion battery aging trajectories

Lithium-ion batteries can last many years but sometimes exhibit rapid, nonlinear degradation that severely limits battery lifetime. In this work, we review prior work on "knees" in lithium-ion battery aging trajectories. We first review definitions for knees and three classes of "inte...

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Bibliografische gegevens
Hoofdauteurs:	Attia, PM, Bills, AA, Brosa Planella, F, Dechent, P, dos Reis, G, Dubarry, M, Gasper, P, Gilchrist, R, Greenbank, S, Howey, D, Liu, O, Khoo, E, Preger, Y, Soni, A, Sripad, S, Stefanopoulou, A, Sulzer, V
Formaat:	Journal article
Taal:	English
Gepubliceerd in:	IOP Publishing 2022

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author	Attia, PM Bills, AA Brosa Planella, F Dechent, P dos Reis, G Dubarry, M Gasper, P Gilchrist, R Greenbank, S Howey, D Liu, O Khoo, E Preger, Y Soni, A Sripad, S Stefanopoulou, A Sulzer, V
author_facet	Attia, PM Bills, AA Brosa Planella, F Dechent, P dos Reis, G Dubarry, M Gasper, P Gilchrist, R Greenbank, S Howey, D Liu, O Khoo, E Preger, Y Soni, A Sripad, S Stefanopoulou, A Sulzer, V
author_sort	Attia, PM
collection	OXFORD
description	Lithium-ion batteries can last many years but sometimes exhibit rapid, nonlinear degradation that severely limits battery lifetime. In this work, we review prior work on "knees" in lithium-ion battery aging trajectories. We first review definitions for knees and three classes of "internal state trajectories" (termed snowball, hidden, and threshold trajectories) that can cause a knee. We then discuss six knee "pathways", including lithium plating, electrode saturation, resistance growth, electrolyte and additive depletion, percolation-limited connectivity, and mechanical deformation—some of which have internal state trajectories with signals that are electrochemically undetectable. We also identify key design and usage sensitivities for knees. Finally, we discuss challenges and opportunities for knee modeling and prediction. Our findings illustrate the complexity and subtlety of lithium-ion battery degradation and can aid both academic and industrial efforts to improve battery lifetime.
first_indexed	2024-03-07T07:14:05Z
format	Journal article
id	oxford-uuid:98d1d797-1600-45ba-9475-a1406a21f221
institution	University of Oxford
language	English
last_indexed	2024-03-07T07:14:05Z
publishDate	2022
publisher	IOP Publishing
record_format	dspace
spelling	oxford-uuid:98d1d797-1600-45ba-9475-a1406a21f2212022-07-14T09:36:31ZReview—"Knees" in lithium-ion battery aging trajectoriesJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:98d1d797-1600-45ba-9475-a1406a21f221EnglishSymplectic ElementsIOP Publishing2022Attia, PMBills, AABrosa Planella, FDechent, Pdos Reis, GDubarry, MGasper, PGilchrist, RGreenbank, SHowey, DLiu, OKhoo, EPreger, YSoni, ASripad, SStefanopoulou, ASulzer, VLithium-ion batteries can last many years but sometimes exhibit rapid, nonlinear degradation that severely limits battery lifetime. In this work, we review prior work on "knees" in lithium-ion battery aging trajectories. We first review definitions for knees and three classes of "internal state trajectories" (termed snowball, hidden, and threshold trajectories) that can cause a knee. We then discuss six knee "pathways", including lithium plating, electrode saturation, resistance growth, electrolyte and additive depletion, percolation-limited connectivity, and mechanical deformation—some of which have internal state trajectories with signals that are electrochemically undetectable. We also identify key design and usage sensitivities for knees. Finally, we discuss challenges and opportunities for knee modeling and prediction. Our findings illustrate the complexity and subtlety of lithium-ion battery degradation and can aid both academic and industrial efforts to improve battery lifetime.
spellingShingle	Attia, PM Bills, AA Brosa Planella, F Dechent, P dos Reis, G Dubarry, M Gasper, P Gilchrist, R Greenbank, S Howey, D Liu, O Khoo, E Preger, Y Soni, A Sripad, S Stefanopoulou, A Sulzer, V Review—"Knees" in lithium-ion battery aging trajectories
title	Review—"Knees" in lithium-ion battery aging trajectories
title_full	Review—"Knees" in lithium-ion battery aging trajectories
title_fullStr	Review—"Knees" in lithium-ion battery aging trajectories
title_full_unstemmed	Review—"Knees" in lithium-ion battery aging trajectories
title_short	Review—"Knees" in lithium-ion battery aging trajectories
title_sort	review knees in lithium ion battery aging trajectories
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Review—"Knees" in lithium-ion battery aging trajectories

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