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10 15 20 25 30 35 40 45 47 Cavities and/or channels can be filled with at least one liquid (i.e. water or liquid helium) and a percentage (0,0001% - 99,999%) other elements like sodium, potassium and/or metal or mixtures of metal in that liquid, gas or plasma, to provoke interaction between elements within the embodiment, and then the said element becomes part of the nuclear reaction to release for example one electron for the plasma created to return to its atomic state, and this has been achieved in full in the laboratory tests. Channels can be created by mould-injection or, similar, by photographic means, by printing technology, by etching chemically, by laser, and channels may be composed by contacting two surface from which at least one has relief characteristics; So we claim also the method to build electronic computing means (i.e. microchip, integrated circuit, sensors, motherboard, etc.), for various electronic applications, powered by a static chemo-nuclear, a bio-nuclear and/or bio-chemical plasma reactor which are located either: a. on the surface of said electronic computing means, b. in the inside embodiment of said electronic computing means; c. connected to said electronic computing means by direct and/or indirect connection means, d. Encapsulate the inside positioned electronic means, e. acombination of abovementioned locations, where said static chemo-nuclear, bio-nuclear or bio-chemical plasma power means, as per claimed method 1,2 and 7, - located in one or more embodiments which may have each one or more layers - generate electrical current by the interaction of moving atomic and/or molecular elements (i.e. atomic hydrogen) with at least one type of nuclear element in one or more cavities (173) and/or internal channels (172), can be a single unit or a multi-system at least have one embodiment. Another method is now disclosed to power directly a microchip or an integrated circuit or parts of a microchip or of an integrated circuit, by at least one static, dynamic or rotational chemo-nuclear, bio-nuclear and/or bio-chemical plasma reactor, as per claimed method 1,2 and 7, built within (187) the microchip or integrated circuit. Another method is disclosed to power directly a microchip or an integrated circuit or parts of a microchip or of an integrated circuit, by at least one static, dynamic or rotational chemo-nuclear, bio-nuclear and/or bio- chemical plasma reactor, as per claimed method 1,2 and 7, located outside (181) the microchip or integrated circuit. We claim also the method to join (i.e. laminate) a surface of a chemo- nuclear, bio-nuclear and/or bio-chemical plasma reactor, as per claimed method 1,2 and 7, in with at least one surface of a microchip (190) or integrated circuit in such a way that at least one electric current terminal (191, 192, 193, 194, 195, 196) of the reactor (170) contacts a