Journal
ENERGIES
Volume 15, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/en15030926
Keywords
Atmospheric Pressure Chemical Vapour Deposition; graphene; metals; metal oxides; Li+ batteries
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Lithium-ion batteries with composite electrodes based on graphene have advantages of low cost, high safety, and good performance. Chemical vapor deposition has been used to overcome electrode issues for large-scale deployment. This mini review summarizes the synthetic strategies of graphene-based composite electrodes and their potential applications.
Lithium-ion batteries have numerous advantages, including excellent energy density with high stability. One of the limitations regards the preparation of anode materials at low cost and high safety with good performance. Over the past decade, research has been focused on their improvement as composites, taking advantage of the synergistic effects between the materials. The object of this mini review is to summarize the synthetic strategies of composite electrodes based on graphene that are utilized for lithium-ion chemistries. Emphasis will be given on chemical vapor deposition and how this route can overcome the electrode issues for large-scale deployment.
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