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10 15 20 25 30 35 40 45 50 35 nuclear elements, to power electronic devices and equipment (i.e. mobile phones, laptops, servers, TV’s, monitors), and household devices (i.e. washing machines) ie. current at 4 Am. A forth chemo-nuclear, bio-nuclear and/or bio-chemical plasma reactor, working as the method described in claim 1, claim 2 or in claim 84, in dimensions and structural means, and containing the correct composition of chemical matters and nuclear elements, to power an electric engine, (i.e. a car, truck, boat, rotor) or a electric machine, i.e. at 250 Am. A method is disclosed where the strength of the one field and in conjunction with presence of the second field of a double magnetic fields can be utilized to attain inter-atomic fusion ( that is the fusion of electron and its nuclease), that is where electron from one level, (by use of magnetic field force), is pushed back into lower orbit, or in case of hydrogen the electron is push into the nuclease of the atom, this leading to the release of energy and creation of magnetically balanced atom, which is magnetically neutral but still will posses two elements of electron and proton but no neutron, this is another method for the creation of dark matter, where there is a mass - but due to balance in magnetic field - there is no heteee cate Lake a ne ne C8 nn interaction between the charged mater and no or very little magnetic field to create visible light, the principal of creation of comparatively large mass and no visible light in the order of electromagnetic wavelength detectable can be achieved. A large number methods are provided below. The production of atomic and molecular is very important in view of the great importance of nano-technology and the development of microchips and integrated circuit. The mono-layer called “Graphene” is very important. In our TIPI-reactors we can build them in a new — rather simple way — in large quantities and with high purity. A method is disclosed to create atomic or molecular carbon (like in claim 39) at and in environmental conditions (i.e. at room or outside temperature, atmospheric conditions), without a heating source, without adding electrons (electrical current) to trigger the initial internal process(as), without additional electromagnetic means and without pressurized conditions, in a reactor, as described is claim 1, or ina reactor, as described is claim 2, where said atomic carbon can be collected, for example as deposit of pure atomic carbon in 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 to achieve the production of this carbon atomic state layering, known as graphene or graphene wall, an active liquid or gases or mixture of the two elements, consisting of elements which can remove carbon from materials like steel, CH containing products, even from C from various plastics (like PET) and silicones, or carbon containing gases are used as the source of the carbon enriched material , where the carbon atoms can be actively separated from their composite state, like in steel, by means of an intervention of chemically active agent containing elements like potassium, where the agent has the power to remove carbon and release it as gases like CO, in the embodiment of the core, where in the presence of a radioactive source, by the use of the radioactive