| 초록 |
A variety of nanomaterials have been developed as electrode materials to fabricate energy devices which can provide high energy/power densities and excellent charge/discharge rate capability. Owing to its fascinating properties, graphene has provided strong potential for making advanced applications in various industrial areas. In addition, nanostructured conducting polymers have been also studied as the promising material candidate for energy storage application due to their enhanced surface area, high conductivity and reversible redox activity. Unfortunately, however, these materials have several critical issues which need to be solved for commercialized applications. Here, we present efficient top-down physical methods to graphene/polymer nanohybrids. Specifically, nanostructured conducting polymers are physically incorporated into stacked graphene layers as the guest species without major property degradation. |
