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10 15 20 25 30 35 40 45 50 17 We also claim a reactor as described is claim 1 or 2, in which - on the atomic and molecular level and dimension - a plurality of dynamic zones with different electrical potency (thus with more or less free electrons) are created by the constant interaction of the radiation from the radioactive source(s) with specific atoms, molecules and/or their isotopes, where these interactions alters the atomic properties and characteristics of a number of said atoms and molecules and/or their isotopes, and thus also influences their ability to restructure internally, to combine with other atoms and molecules and/or isotopes, and/or to decay to their original state, where in principle each said zone with different electrical potency may be connected or reached by a terminal (118). This is another aspect of the self-sustaining process in TIPI-reactors. A very important method, unknown in prior art, but proven in our laboratories, is to create atomic hydrogen 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), like creation of plasma, without additional electromagnetic means and without pressurized conditions in a TIPl-reactor reactor, as described is claim 1, or in any TIPI- reactor, as described is claim 2. Atomic hydrogen is an important agent in the materials in the reactor, since it a major element to create self-sustaining systems, and very important additional method, also unknown in prior art, is to create atomic helium 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), like scintillation, without additional electromagnetic means and without pressurized conditions, in a TIPl-reactor, as described is claim 1, or in a TIPl-reactor, as described is claim 2. A very important method, unknown in prior art, and important to create graphene is 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(es), without additional electromagnetic means and without pressurized conditions, in a TIPl-reactor, as described is claim 1, or in a TIPl-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(s), plate(s), surface(s) and multi-shape object(s) and on electrodes or in a multi-layers of carbon - which is already achieved physically in the labo in large amounts in atmospheric condition without use of pressure or heat). This brings us to the method, unknown in prior art, to create or generate all kind of preferred atomic elements of the periodic table and their isotopes, and molecules, 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 TIPl-reactor, as described is claim 1, or in a TIPl-reactor, as described is claim 2, where said preferred or targeted atomic elements of the periodic table and their isotopes can be collected, for example as deposit on electrodes, by filtration, by density layers, etc. and can be transported by transport means to collection means;