Determination of Si/graphite anode composition for new generation Li-ion batteries: a case study

İlknur Kalafat, Neslihan Yuca*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Silicon with the properties of high capacity capability, moderate working potential, environmental sensitivity, and existence are the highly promising anode materials for lithium-ion batteries. Silicon anodes have disadvantageous properties and advantages like 300% volume change during lithium insertion and extraction process that can result in capacity fading and a shorter lifetime of the battery. In the literature, different optimizations of Silicon with different nanomaterials or composite materials, in different ratios, and with different binders and different procedures have been studied. The physical mixing of silicon with carbon provides a good performance by combining the high lithium storage capacity of the silicon and the good mechanical and conductive properties of carbon. Binders are one of the other factors affecting the performance of the Si/C anodes. In this study, different ratios of silicon/graphite combinations were tested. The Si/C hybrid material provides an advantageous and efficient use for innovative lithium-ion anodes and available lithium-ion battery technology when the Si/C match performs a suitable combination of two material properties, such as the high lithium storage capacity of silicon and the conductive properties of carbon. This study is aimed to improve the performance of the cell by changing the amount of active material and polymer in the electrode by finding the most appropriate amount of active substance and binder polymer ratio in the electrode. The electrochemical result of the composition, which compensates for the problems caused by the volume expansion of the silicon by using less silicon, showed higher capacitive properties, as it exhibits better adhesion among these compositions with a higher binder ratio. This study resulted in more than 1000 mAh/g specific capacity after 100 cycles at C/3 rate and structural characterization of the samples before and after cycling provided information about the electrode content.

Original languageEnglish
Pages (from-to)2112-2122
Number of pages11
JournalTurkish Journal of Chemistry
Volume46
Issue number6
DOIs
Publication statusPublished - 2022
Externally publishedYes

Bibliographical note

Publisher Copyright:
© TÜBİTAK.

Funding

This work has been supported by Enwair Corp. under the project of KOSGEB Research and Innovation Program (Project No. 2014/80).

FundersFunder number
Enwair Corp.
KOSGEB Research and Innovation Program2014/80

    Keywords

    • lithium-ion battery
    • Silicon-graphite anode
    • specific capacity

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