Enhanced dendrite nucleation and Li-clustering at vacancies on graphene

Jonathon Cottom; Qiong Cai; Emilia Olsson

doi:10.48550/arxiv.2310.20241

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Enhanced dendrite nucleation and Li-clustering at vacancies on graphene

Jonathon Cottom, Qiong Cai and Emilia Olsson

arXiv.org

31/10/2023

DOI: https://doi.org/10.48550/arxiv.2310.20241

Abstract

Physics - Materials Science

An ever present challenge for Li-ion batteries is the formation of metallic dendrites on cycling that dramatically reduces cycle life and leads to the untimely failure of the cell. In this work we investigate the modes of Li-cluster formation on pristine and defective graphene. Firstly, we demonstrate that on a defect free surface the cluster formation is impeded by the thermodynamic instability of \ce{Li_2} and \ce{Li_3} clusters. In contrast, the presence of a vacancy dramatically favours clustering. This provides insights into the two modes of Li-growth observed: for the pristine basal plane if the Li-Li repulsion of the small clusters can be overcome then plating type behaviour would be predicted (rate / voltage dependent and at any point on the surface); whilst dendritic growth would be predicted to nucleate from vacancy sites, either pre-existing in the material or formed as a result of processing.

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Title: Enhanced dendrite nucleation and Li-clustering at vacancies on graphene
Creators: Jonathon Cottom - University of Amsterdam
Qiong Cai - University of Surrey, School of Chemistry and Chemical Engineering
Emilia Olsson - University of Amsterdam
Publication Details: arXiv.org
Grants: Lithium-Sulfur Technology Accelerator (LiSTAR) project, EP/S003053/1, Grant FIRG014, The Faraday Institution (United Kingdom, Didcot)
LiSTAR project, FIRG014, Faraday Institute for Science and Religion (United Kingdom, Cambridge)
Development of operando techniques and multiscale modelling to face the zero-excess solid-state battery challenge, OPERA, 101103834, European Commission (Belgium, Brussels) - EC
Grant note: This work made use of the Dutch national e-infrastructure with the support of the SURF Cooperative using grant no. EINF-2434. The authors thank SURF (www.surf.nl) for the support in using the Lisa Compute Cluster and National Supercomputer Snellius. Q.C. would like to acknowledge funding support from Faraday Institution through the LiSTAR programme (EP/S003053/1, Grant FIRG014), and funding support from Horizon Europe through the OPERA consortium (Grant No. 101103834). E.O. is grateful for a WISE Fellowship from the Dutch Research Council (NWO). This work has been carried out at the Advanced Research Center for Nanolithography (ARCNL). ARCNL is a public–private partnership with founding partners UvA, VU, NWO-I, and ASML and associate partner RUG.
Identifiers: 99826459102346
Academic Unit: School of Chemistry and Chemical Engineering; Institute for Sustainability
Language: English
Resource Type: Preprint

Enhanced dendrite nucleation and Li-clustering at vacancies on graphene

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