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10 15 20 25 30 35 40 45 50 39 reactor, as described is claim 2, where said atomic carbon can be collected, for example as deposit of pure atomic carbon in as mono-atomic layer of hard black carbon deposited on a specific metal wire, plate, and multi-shape objects and on electrodes or in a multi-layers of carbon, (this is already achieved physically in the lab in large amounts in atmospheric condition without use of pressure or heat), where the carbon will be created and deposited on a chosen element like cooper or silicon or other ceramic elements as graphene, and in atomic or graphene wall, to be rolled or used as or for conduction of deferent energies like current or heat, ate etc. A new method is disclosed to create a special graphene concept, as described in claims 145 and 146, as a conductor of electric energy and by passing electric current through the graphene or graphene wall (this is already achieved physically in the lab in large amounts in atmospheric condition without use of pressure or heat), for materials to create induction magnetic fields around the wall for use in nanotechnology and for nanopower supply. A new method is given to create a special graphene concept, as described in claims 145 and 146, and by passing electric current through the graphene or graphene wall, or graphene material to create induction magnetic fields around the wall for example for use in nanotechnology as nanopower source for the example by using the combined graphene wire and copper wire and the material for winding coil(s), where currents can be created, for example for dynamic transformers and for example this in conjunction with similar polarity magnet positioning to create conditions to boost power from the same conductive wire which is coated by graphene; A new type of coil(s) is claimed, as the mentioned in claim 153, where the wire is made of one or more layers of graphene, which is much stronger than traditional coils due to the super or ballistic conductive characteristics. A new method is disclosed to create graphene, as described in claims 145 and 147, where the material which the graphene is walled on a conductor itself, for example like copper wire, and by passing electric current through the graphene or graphene wall, or graphene material and the copper wire, due to difference in molecular and atomic structure of the two matters, two separate values of current can be passes through, as one material is more resistive then the other so two induction fields will be created simultaneously one superimposing the other, where by fine tuning the currents in two matters, this will create two different magnetic induction environments, one superimposing the other, thus allowing creation of gravitational forces in nanotechnology size and upward, to cables and even cores, and by making the graphene too in possession of a nanogravitational system. Another new method is disclosed to create graphene, as described in claims145 and 146, where the material which the graphene is walled on another graphene wall with different lattice positioning, which the second layer is created through different material and time and radiation source composition, and then by passing electric current through both graphene or graphene wall, or graphene material, due to difference in lattice structure positioning of the same matter, two separate values of current can be passes through, as one material is more