| 초록 |
Recently, 3D graphene nanostructures have attracted considerable attentions for a variety of applications in sensors, separations, lithium-ion batteries, and supercapacitors because of their prominent properties such as high surface area, high electrical conductivity, and thermal/mechanical stability. Herein, we demonstrate various types of 3D graphene nanostructures via chemical modification of graphene oxide and their self-assembly behaviors in different solvent conditions. In particular, porous graphene nanostructures are fabricated through the control of electrostatic repulsions between chemically modified graphene sheets. Chemically reduced graphene oxide sheets are well-dispersed owing to the electrostatic repulsion at high pH condition, while agglomerating each other at low pH condition. Noticeably, we fabricate different graphene morphologies such as dendrite-like structure and wire-like structure by controlling the pH condition. |
