Nanocarbon, a remarkable material in the realm of materials science, has garnered immense attention for its unique properties and diverse applications. Comprising structures on the nanoscale, nanocarbon includes carbon nanotubes, graphene, and fullerenes, each with distinct characteristics. Graphene, a single layer of carbon atoms arranged in a hexagonal lattice, boasts exceptional strength, electrical conductivity, and flexibility. Carbon nanotubes, cylindrical structures with extraordinary tensile strength, find utility in fields ranging from electronics to materials reinforcement. Nanocarbon's impact extends beyond traditional materials, infiltrating industries like energy storage and medicine. Graphene-based materials enhance battery performance, enabling faster charging and longer lifespans. Moreover, nanocarbon's biocompatibility makes it promising for drug delivery systems and medical imaging. In the ever-evolving landscape of materials science, nanocarbon's versatility and unique attributes position it as a catalyst for innovation. Researchers and engineers continue to explore its potential, opening avenues for groundbreaking advancements that promise to revolutionize various industries.






Title : A proposal of chemical sensor based on polycrystalline Cu2O nanofilm
Paulo Cesar De Morais, Catholic University of Brasilia, Brazil
Title : Ferrofluid mediated synthesis of nanomagnetic polymer materials in supercritical fluids
M G H Zaidi, G B Pant University of Agriculture & Technology, India