Abstract
A conductive adhesive layer (CAL) composed of graphene/polyvinylidene fluoride (PVdF) composite is applied between a current collector and an active material layer to enhance the electrochemical performance of lithium ion battery anodes. Graphene content in the CAL varies in the range of 0–3 wt% relative to PVdF. The CAL significantly improves the cyclic performance of both graphite and silicon/graphite electrodes by increasing the adhesion strength of the electrodes. An increase in graphene content increases electronic conductivity but decreases lithium ion transfer of the CAL film. Therefore, a CAL containing a relatively small amount of graphene (1 wt%) is more favorable to highly conductive graphite electrodes, whereas a CAL containing 2 or 3 wt% graphene shows better electrochemical performance in the case of relatively low conductive silicon/graphite electrodes.
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