Materials with appropriate surface roughness and low surface energy can form superhy-drophobic surfaces, displaying water contact angles greater than 150°. Superhydrophobic carbon-based materials are particularly interesting due to their exceptional physicochemical properties. This review discusses the various techniques used to produce superhydrophobic carbon-based materials such as carbon fibers,carbon nanotubes, graphene, amorphous car-bons, etc. Recent advances in emerging fieldssuch as energy, environmental remediation, and thermal management in relation to these materials are also discussed.

• Meng, Long-Yue(Department of Chemistry, Inha University, Department of Chemical Engineering, Yanbian University)
• Park, Soo-Jin( Department of Chemistry, Inha University) | Park, Soo-Jin