Anodes for Li-ion batteries prepared from microcrystalline silicon and enabled by binder’s chemistry and pseudo-self-healing

Foss CEL, Müssig S, Svensson AM, Vie PJS, Ulvestad A, Mæhlen JP, Koposov AY (2020)

Publication Status: Published

Publication Type: Journal article, Original article

Publication year: 2020

Journal

Scientific Reports Nature Publishing Group: Open Access Journals - Option B

Publisher: Nature Research

Book Volume: 10

Article Number: 13193

Journal Issue: 1

URI: https://www.nature.com/articles/s41598-020-70001-5

DOI: 10.1038/s41598-020-70001-5

Abstract

Silicon, while suffering from major degradation issues, has been recognized as a next promising material to replace currently used graphite in the anodes of Li-ion batteries. Several pathways to mitigate the capacity fading of silicon has been proposed, including optimization of the electrode composition. Within the present work we evaluated different binder formulations to improve the long-term performance of the Li-ion batteries’ anodes based on industrial grade silicon (Si) which is typically characterized by a particle sizes ranging from 100 nm to 5.5 microns. The decrease of pH in a binder formulation was found to detrimental for the cycling performance of Si due to enhanced formation of an ester-type bonding between the carboxylic group of the binder and hydroxyl group on the Si surface as well as cross-linking. Furthermore, the present work was focused on the use of the industrial grade Si with very high loading of Si material (up to 80% by weight) to better highlight the effects of the surface chemistry of Si and its influence on the performance of Si-based anodes in Li-ion batteries. The tested system allowed to establish a pseudo self-healing effect that manifests itself through the restoration of the anode capacity by approximately 25% and initiates after approximately 20 cycles. The stabilization of the capacity is attributed to self-limiting lithiation process. Such effect is closely related to SEI formation and transport properties of an electrode prepared from silicon of industrial grade.

Authors with CRIS profile

Stephan Müssig Professur für Anorganische Chemie

Involved external institutions

NTNU Trondheim - Norwegian University of Science and Technology NO Norway (NO)

How to cite

APA:

Foss, C.E.L., Müssig, S., Svensson, A.M., Vie, P.J.S., Ulvestad, A., Mæhlen, J.P., & Koposov, A.Y. (2020). Anodes for Li-ion batteries prepared from microcrystalline silicon and enabled by binder’s chemistry and pseudo-self-healing. Scientific Reports, 10(1). https://doi.org/10.1038/s41598-020-70001-5

MLA:

Foss, Carl Erik Lie, et al. "Anodes for Li-ion batteries prepared from microcrystalline silicon and enabled by binder’s chemistry and pseudo-self-healing." Scientific Reports 10.1 (2020).

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