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Physicochemically-informed continuum level model of a solid electrolyte interphase growth in Li-ion batteries
ID Zelič, Klemen (Avtor), ID Esmaeilpour, Meysam (Avtor), ID Jana, Saibal (Avtor), ID Mele, Igor (Avtor), ID Wenzel, Wolfgang (Avtor), ID Katrašnik, Tomaž (Avtor)

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Izvleček
Despite extensive research, understanding the SEI’s formation mechanism, structure, and its impact on battery performance remains challenging due to its complexity. To enable model-based design studies and to enhance understanding and prediction of the macroscopically observable consequences of SEI layer on battery performance and safety, continuum models featuring high level of prediction capability are needed. This objective of this paper is to resolve this challenge through an innovative physicochemically-informed continuum level model derived using a scale-bridging methodology, which, for the first time, enables highly consistent transfer of detailed KMC level based governing equations and reactions rates to the physicochemically-informed continuum level model. This was made possible by the innovative methodology relying on identification of rate-limiting reactions, deriving dynamic equations, and implementing dimensionality reduction. The resulting continuum model accurately replicates KMC results and experimental results while significantly reducing computational complexity. Furthermore, it, for the first time, enables distinguishing between ‘bad’, ‘good’, and ‘inorganic’ SEI growth scenarios on the continuum scale, offering valuable insights into electrode/electrolyte interface design. Due to its computational efficiency and scalability the proposed model can be integrated into higher-scale battery models, making possible advanced virtual performance, degradation and safety assessments with higher level of prediction capability.

Jezik:Angleški jezik
Ključne besede:Li-ion batteries, solid electrolyte interphase, molecular dynamics, kinetic Monte Carlo, continuum model, scale-bridging
Vrsta gradiva:Članek v reviji
Tipologija:1.01 - Izvirni znanstveni članek
Organizacija:FS - Fakulteta za strojništvo
Status publikacije:Objavljeno
Različica publikacije:Objavljena publikacija
Leto izida:2025
Št. strani:11 str.
Številčenje:Vol. 627, art. 235814
PID:20.500.12556/RUL-164982 Povezava se odpre v novem oknu
UDK:621.3
ISSN pri članku:0378-7753
DOI:10.1016/j.jpowsour.2024.235814 Povezava se odpre v novem oknu
COBISS.SI-ID:215623427 Povezava se odpre v novem oknu
Datum objave v RUL:19.11.2024
Število ogledov:604
Število prenosov:519
Metapodatki:XML DC-XML DC-RDF
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Gradivo je del revije

Naslov:Journal of power sources
Skrajšan naslov:J. power sources
Založnik:Elsevier
ISSN:0378-7753
COBISS.SI-ID:25782784 Povezava se odpre v novem oknu

Licence

Licenca:CC BY-NC-ND 4.0, Creative Commons Priznanje avtorstva-Nekomercialno-Brez predelav 4.0 Mednarodna
Povezava:http://creativecommons.org/licenses/by-nc-nd/4.0/deed.sl
Opis:Najbolj omejujoča licenca Creative Commons. Uporabniki lahko prenesejo in delijo delo v nekomercialne namene in ga ne smejo uporabiti za nobene druge namene.

Sekundarni jezik

Jezik:Slovenski jezik
Ključne besede:litij-ionske baterije, medfazni sloji, molekularna dinamika, kinetični Monte Carlo, kontinuumski model, prehod med skalami

Projekti

Financer:EC - European Commission
Program financ.:H2020
Številka projekta:957189
Naslov:Battery Interface Genome - Materials Acceleration Platform
Akronim:BIG-MAP
Financer:EC - European Commission
Program financ.:HE
Številka projekta:101069910
Naslov:Towards the next generation of high performance Li-ion battery cells
Akronim:NEXTCELL
Financer:EC - European Commission
Program financ.:HE
Številka projekta:101103898
Naslov:NEXT-generation physics and data-based Battery Management Systems for optimised battery utilization
Akronim:NEXTBMS
Financer:ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:P2-0401
Naslov:Energetsko strojništvo
Financer:ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:J2-2494
Naslov:Napredni večskalni model NMC katodnih materialov za izboljšane sisteme za shranjevanje energije naslednje generacije

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