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10 15 20 25 30 35 40 45 50 36 material as the energy source in the embodiment of the core, an schematic chain of events of these types of reactions are shown in Fig.31, where in prior arts, high temperatures or other abnormal ambient are created to liberate carbon for production of graphene, where in this reactor system and by this method, it is claimed and graphene has been produced in laboratory in sufficient quantities, that the energy needed for the liberation of carbon needed for production of graphene, from its constituent material is achieved in atomic and nuclear by wee ee A et na et et te te peeeee dhe et means use of radioactive material, which is a logical way through radioactive or magnetic energy binding in a simple way to release or loosen the magnetic binding between elements, and then by the use of energy from the same soft radioactive source, in a predetermined solution which is chemically active, which allows the natural and without use of any additions external sources of energy or intervention to achieve the production of carbon in atomic state necessary for the production of graphene, where by the placing of the source in and outside the agent or in one position in the core, and due to the creation of hydrogen first and then ionization of the same by the same source(s) in the cavity of the core, to generate ions of hydrogen and electron, where this allows the flow of self- generated current necessary with the interaction and intervention of the energy provided by the radioactive source to support the release of carbon from the agent matter, and then for the released (carbon) in the core to be deposited or coated on the given elements or components within the core, where the element is always in a current created by electrons environment and possessing a induction capabilities it, this being the wire, plate or the connecting wire to for the sources or the electrode to withdraw current from the embodiment, this induction zone being part of the self sustaining phenomenon of the design of the system, where it is attracting to itself and creating a soft fusing condition for the free graphene to attach itself to the elements or component within the core, thus producing a cohesive and fairly hard coating of graphene on the conductive elements present in the core. thus A new method is disclosed, where by using the method as described in 142, where by repeating the same process as in claim 142, a number of layers of graphene can be coated one on top of the other on the whole, or part of the element that to be coated by several layers of the same graphene or by different layers of different lattice graphene produced by other sources or in different time in the same embodiment, where as claimed 156 using oil or CH constituent material, if material like oil is introduced in between layers, if need be coating on a part of the element, and then a layer of metallic or ceramic or a mixture or and element that can be graphene coated, is added on, where each new layer or part of the new layer, which is created on the element can be physical wafer off before the introduction of next layer. This method can be used for the commercialization production of graphene, where the element or first layer of graphene is used as the base and the consecutive layer(s) of graphene are introduced using claim 39 and 142 and 143 to coat and strength the layer one on top of each other, or several multi-layer of different lattice of graphene or the same are coated or glued to each other on the same element, and wafer off. A further method to create atomic or molecular carbon at environmental