▎ 摘 要
NOVELTY - Seven-lattice graphene carrier with embedded ion comprises four carbon atoms which are key combination to form seven hexagon-lattice graphene structure, where the twelve carbon atom structure is formed by combining two carbon-carbon double bonds with carbon atoms, and other twelve carbon atom structure is formed by combining three carbon-carbon double bonds with carbon atoms. The heptagonal-format graphene structure is constructed in such a manner that six lattices surround the periphery of the middle lattice because of the electron-phase properties of all the substances. USE - Seven-lattice graphene carrier with embedded ion used as anode of battery, and for functional improvement of graphene (all claimed). DETAILED DESCRIPTION - Seven-lattice graphene carrier with embedded ion comprises four carbon atoms which are key combination to form seven hexagon-lattice graphene structure, where the twelve carbon atom structure is formed by combining two carbon-carbon double bonds with carbon atoms, and other twelve carbon atom structure is formed by combining three carbon-carbon double bonds with carbon atoms. The heptagonal-format graphene structure is constructed in such a manner that six lattices surround the periphery of the middle lattice because of the electron-phase properties of all the substances. The same substance in the reaction process has the same phase double rejection, and embedded ions in graphene inevitably occur at some distance in hepta-crystalline graphene structure. The periphery of six lattice does not contain ion to form the graphene embedded seven lattice type structure. An INDEPENDENT CLAIM is included for a method for embedding ion on seven-lattice graphene carrier which involves: (A) mixing the compound with target ion with the graphene layer, increasing the temperature and adding buffer; and (B) heating continuously to embed the target ion into seven hollow lattice type graphene to form seven lattice graphene with embedded target ion and combination of molecular group.