Page Content (OCR)
10 15 20 25 30 35 40 45 50 42 different set of layers, for different purposes and applications from the surface or within a structure of the object from/within the same coil or object, for example a flat coil can be obtained from one side of the conductive field. A method is disclosed to build conductive wires which are made of at least one graphene layer(s), which then is covered by a non-conductive material, to be used in all kind of connections of electrical and electronic devices, like cables for electricity, to be used in microchips or integrated circuits as connection between components, instead of actual copper or gold lines, and another method is disclosed to build conductive wires which are made of at least two graphene layer(s), which are separated from each other by a non-conductive material, and then covered by a non-conductive material, and another method is disclosed to build conductive wires which are multi-segmented, where for example graphene lines are positioned next to each other on a polymer cylinder, and then covered by a non-conductive material, and finally another method is disclosed to build conductive wires which are multi-segmented, where for example graphene lines are positioned next to each other on a material like diamond or it’s composite which with one input of current on one side of the surface of the diamond, at least one are several of the graphene lines can be come conductive at the same time when an UV light or EUV is shined on the diamond. Related to the co-existence of diamonds and graphene, a method is disclosed to trait objects, like plates or diamonds which contain at least one hole in it’s surface, within a reactor after the method described in claim 39 and 142 and 166, where the inner surfaces of the hole will be covered by a layer of graphene. Related to the co-existence of diamonds and graphene, another method is disclosed to trait objects, like plates and various objects — like a naked waffer which contain at least one hole and/or may be covered by at least one polymer surface, within a reactor after the method described in claim 39 and 142, where the inner surfaces of the hole will be covered by a layer of graphene, and the space under the plastic surface will not be covered by graphene; Related to diamonds and graphene, a method is disclosed to assemble at least one layer of graphene or another conductive material together with at least one layer of diamond i.e. a diamond crystal, a slide of diamond of max. 0.8 mm, this resulting in a simple switch set that opens — conducts electrons - when the zone with diamond is radiated by EUV or UV, where such switch can be mounted on various contact means of various electrical and electronic devices. Related to the co-existence of diamonds and graphene, a method is disclosed to coat a layer of graphene onto the surface or on the surface of a hole, within at least one crystal of diamond, with graphene on at least two surfaces of diamond, separated by diamond and not interconnected, then by introduction of EUV or UV, that makes diamond conductive, to facilitate for current to cross from one graphene area to another, set that can be used as a switch device. Related to the co-existence of diamonds and graphene, another method is disclosed to assemble at least two layers of graphene together with at least one layer of diamond i.e. diamond, a slide of diamond, this resulting a simple or complex sandwiched switch set to be put ON when radiated by EUV or UV for various electrical and electronic applications;