Topological Defects Created by Gamma Rays in a Carbon Nanotube Bilayer

Abstract: Graphene sheets are a highly radiation-resistant material for prospective nuclear applications and nanoscale defect engineering. However, the precise mechanism of graphene radiation hardness has remained elusive. In this paper, we study the origin and nature of defects induced by gamma radiation in a graphene rolled-up plane. In order to reduce the environmental influence on graphene and reveal the small effects of gamma rays, we have synthesized a novel graphene-based nanocomposite material containing a bilay… Show more

“…In recent times, the utilization of γ-ray irradiation techniques has gained considerable popularity due to their efficiency, convenience, and ease of use. This technique has found widespread application in the fabrication and modification of inorganic nanomaterials [11,12], as well as the development of polymer functional materials [13,14]. Researchers have harnessed the power of γ-ray irradiation to precisely tailor the properties of these materials for specific applications.…”

Progress in Research on the Preparation of Graphene-Based Aerogels Using γ-ray Irradiation Technology

“…In recent times, the utilization of γ-ray irradiation techniques has gained considerable popularity due to their efficiency, convenience, and ease of use. This technique has found widespread application in the fabrication and modification of inorganic nanomaterials [11,12], as well as the development of polymer functional materials [13,14]. Researchers have harnessed the power of γ-ray irradiation to precisely tailor the properties of these materials for specific applications.…”

Progress in Research on the Preparation of Graphene-Based Aerogels Using γ-ray Irradiation Technology

Carbon rich media for luminescence-based surface dosimetry and study of associated surface defects

Plasmon-associated DNA genotyping based on crystalline assemblies of metallic carbon nanotubes