abstract |
The present invention relates to a lithium ion conductor, an electrode active material, and a method for producing the same, which achieve output characteristics and high energy density. A single nanomaterial is charged into a swirling reaction vessel, and an inner cylinder is swirled to mix and disperse carbon particles. Further, the single nanomaterial is introduced and mixed while turning the inner cylinder. As a result, some of the UC-treated carbon particles are dispersed inside the electrolytic solution. A voltage is applied to the single nanomaterial in an electrolyte solution in which carbon particles are dispersed, and a polymer layer including a graphene layer is formed on the surface of the single nanomaterial. [Selection] Figure 11 |