Page Content (OCR)
10 15 20 25 30 35 40 45 60 example when plastic drinking bottles are used (14), where the hard compressed plastics sections are located, like the screw end or the button at the bottom of the bottle, due to their higher carbon content, these areas tend to lose their carbon to the agent in the core very rapidly and break off to pieces or cause leakage at point of button, where the carbon withdrawn from these points have been proven and been test to be deposited on the copper wires specifically positioned to prove this phenomenon, this true the same where the edge of the plastic is squeezed or cut, thus CH based materials are claimed to be freely available source of material for attaining pure atomic carbon for the production of graphene, consequently it seems that plastics are not good candidates for or to be coated by graphene, this seems to be purely due to atomic and molecule magnetic and bounding cohesion , that two similar and atoms of the same magnetic field magnitude do not bind and they repel aaah -tha. each other, Method as described in claim 168, using mixture elements like metallic element and CH composites, where predetermine amount of carbon in placed in the composite or on the composite surface and from a given position on the composite, where this carbon can be withdrawn for the production of graphene and or to be created from or deposited on to the another part or on another surface or be used for graphene in nanotechnology We claim also the method to create atomic or molecular carbon, as described in claim 39, 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(es), 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 graphene does not and will not easily be deposited on the copper or any object, which is immersed within the liquid environment, but it has been proven and claimed in laboratory tests that graphene can be deposited on the elements if or once the liquid have plasmatic condition, where the material is too close to the radioactive source, where the creation of hydrogen plasma is very rapid and active, thus the proximity to the source and presence of current and radioactive source is the factor in release and coating graphene in a liquid environment, thus graphene can be deposited on any recital material in a liquid which contains and/or produces plasma condition, like with placing of a radioactive source or environment in which ionisation of hydrogen is created for production of Abend ae dh ele athe Ae current and the right active agent.