Page Content (OCR)
10 15 20 25 30 35 40 45 50 37 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 in a reactor, as described is claim 2, where said atomic carbon can be collected for example from the CO. gas collected from the exhaust of a car, where the gases are feed into the core, where the core is pre-field with the diluted chemical liquid like potassium mixture or gases or mixture of the two, containing active or passive agents , which have the capability to disassociate the carbon from Oz, as in claim 39, where with interaction of the agent material and in the presence of the radioactive source, where then the free carbon or graphene as gas can be deposits on the different elements in the core, copper seems to be best collector for deposition Se Fe a oo eres A new method is disclosed related to claim 39, to create atomic or molecular carbon at 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 in a reactor, as described is claim 2, where said atomic carbon can be collected from for example the steel or any material having carbon in its composition, through laboratory test it is proven graphene is not freely deposited on martial which contain CH as their composite like plastic, therefore material containing CH or plastic based material are the best coating cover and insulation for protection elements coated or have graphene on their outer boundaries or for insulating one graphene layer from its neighboring graphene wall, very much like insulation used for electric wire. 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 from for example the steel or any material having in its composition carbon, graphene has been proven to be freely deposited instantaneously on the cooper or other elements, when the liquid which has been saturated with carbon from any source, is purred over the copper material within the confine of the core and in presence of radioactive source, the graphene deposits on the copper more readily, and at the same time the creation of copper oxide on the element reduces, this creating perfect graphene, does not matter if the elements has come in touch with the solution, that cooper oxide could be diluted within the liquid, if there is copper oxide created, usually the copper oxide take it position over the carbon on graphene state and does not mixed with the graphene layer, as has been seen in laboratory test the graphene takes it position first nearest to the element and them copper oxide is deposited on top or around it. Another related method is claimed for creation of atomic or molecular carbon at 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 normal applications as has been proven in lab tests). Another method to create atomic or molecular carbon is disclosed where at