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  • Diamond sp3 layering | Diamond Layering
    the tested objects which are Copper and Nordic gold eurocent coins a silver ring a gold ring with a diamond electric copper wires a telephone wire nut and bolt a washer an Egyptian cartouche of pure silver with gold plated symbols knotted copper strands copper foils a lattice a rusted piece of metal Other objects were treated similarly but the results are not disclosed yet RESULTS OF TESTS All objects are coated with diamond or fullerene layer s 5 eurocent coin Material steel copper layer 10 eurocent coin Material Nordic gold Metal washer Material iron alloy Keshe plasma batteries can be made in ISO norm sized batteries to be used in all kind of electronic devices which then can last for years Egyptian cartouche Material silver gold plated symbols Egyptian cartouche Material back gold plated Nut and bolt Material metal alloy Keshe plasma reactors to be used in all kind of electronic components which then are powered for years Silver ring Material silver Gold ring Material gold Diamond Material diamond Keshe plasma reactors to be used in all kind of lamps and LED s which then are powered for years Keshe plasma reactors to be used in all kind of

    Original URL path: http://keshefoundation.org/applications/materials/diamond-layering/113-diamond-sp3-layering-en?tmpl=component&print=1&layout=default&page= (2016-02-12)
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  • New method of producing Graphene | Graphene production
    of the upper layers has caused broken connections in the lower layers or that the carbon layers on the electrode also contain some sp3 which are diamond like deposits Cupper electrode with a layer of ballistic conductive graphene The disk of the sample has a diameter of 19 mm In specially adapted reactors we are able to treat much larger surfaces of any shape and length such as plates of 10 cm x 10 cm The method can be applied for large scale production of nanofabric for new types of wafer for electronics on a continuous base in industrial production lines We believe that perfect nanofabrics of 500 microns millionths of a meter across are very feasible and can be achieved very soon By altering the exposure time in reactors we can attain the targeted number of sp2 layers of the required thickness This process will be fine tuned in future tests with industrial partners Cupper electrode with a layer of carbon sp2 graphene for FET transistors The first image shows minor damage on the outer side of the disk This is caused by contact with desk surfaces The samples coming out of a reactor don t have such damage The blank spaces on the connection between the disk and the wire are caused by the solder material as the oil in it prevents deposition of carbon The Raman test was not done on the sample shown on the images but with an identical sample The basic approach shown in the cola bottle reactor can easily be applied for large scale industrial production For example we can design specific reactors to produce only sp3 thus to manufacture industrial diamond transparent diamond and glassy carbon for various industrial applications The presence of pure transparent diamond crystals on special electrodes was confirmed

    Original URL path: http://keshefoundation.org/applications/materials/graphene-production/80-new-method-to-produce-graphene-en (2016-02-12)
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  • New method of producing Graphene | Graphene production
    that the weight of the upper layers has caused broken connections in the lower layers or that the carbon layers on the electrode also contain some sp3 which are diamond like deposits Cupper electrode with a layer of ballistic conductive graphene The disk of the sample has a diameter of 19 mm In specially adapted reactors we are able to treat much larger surfaces of any shape and length such as plates of 10 cm x 10 cm The method can be applied for large scale production of nanofabric for new types of wafer for electronics on a continuous base in industrial production lines We believe that perfect nanofabrics of 500 microns millionths of a meter across are very feasible and can be achieved very soon By altering the exposure time in reactors we can attain the targeted number of sp2 layers of the required thickness This process will be fine tuned in future tests with industrial partners Cupper electrode with a layer of carbon sp2 graphene for FET transistors The first image shows minor damage on the outer side of the disk This is caused by contact with desk surfaces The samples coming out of a reactor don t have such damage The blank spaces on the connection between the disk and the wire are caused by the solder material as the oil in it prevents deposition of carbon The Raman test was not done on the sample shown on the images but with an identical sample The basic approach shown in the cola bottle reactor can easily be applied for large scale industrial production For example we can design specific reactors to produce only sp3 thus to manufacture industrial diamond transparent diamond and glassy carbon for various industrial applications The presence of pure transparent diamond crystals on special

    Original URL path: http://keshefoundation.org/applications/materials/graphene-production/80-new-method-to-produce-graphene-en?tmpl=component&print=1&layout=default&page= (2016-02-12)
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  • Atomic Carbon coated cables and wires | Carbon treated
    copper strands inserted in a cola bottle reactor In these tests only a Kt Liquid vapor is added After this the reactor is closed and the deposition process starts Results after processing After exposure in the static reactors it was found that all the copper strands were each fully covered by atomic carbon The carbon atoms had entered one end of the cable and were deposited on the copper surface of each strand The carbon atoms entering by one end of the cable were deposited on the copper surface of each strand in these small wires There are indications that the deposits are fullerenes a combination of sp2 graphene and sp3 What is so spectacular is that each strand is completely insulated from the other strands in the same insulation sheath The insulation material polymers is not altered or damaged by the processing only a slight difference in color is observed This is the proof that the process is not a chemical reaction NEW INSULATING AND CONDUCTIVE PROPERTIES Although the strands are in direct contact they are fully insulated from each other by the atomic carbon layers This is proven in tests at room temperature with multi meters and physical tests with batteries 9V and lighting where current was conducted through wires that were directly twisted round each other This means that a new proprietary type of wire has been developed which can co conduct several strengths of current at the same time through their different strands and this will mean a revolution for all kinds of electric and electronic design This approach can also be used for the design of transistors and integrated circuits For example surfaces with only a few atomic carbon layers such as sp2 Graphene with ballistic conductive properties can be mounted directly on each other while remaining insulated from each other With techniques like etching special circuits can be made Mr Keshe It is clear that we have found a number of new principles of atomic interactions and reaction on the atomic level which were unknown till now We developed methods of generating new processes in our reactors and the coating of wires which are still in their insulation sheath is just one of the industrial applications we see When you are working at the atomic and nano level you are thinking in other sizes Let s say if the carbon atoms were the size of ping pong balls then the insulation material which we normally think of as being very close to the copper strands could have gaps like tens of meters wide from the copper strands themselves so the carbon atoms can travel easily through and be deposited on the free copper atoms which attract them Our method is that we mount full telephone cables in the wall of our reactors leaving the rest of the cable outside the reactor and the cables act like exhaust pipes to transport the atomic carbon while depositing them on the copper This is a process at

    Original URL path: http://keshefoundation.org/applications/materials/carbon-treated/75-atomic-carbon-treated-cables-and-wires-en (2016-02-12)
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  • Atomic Carbon coated cables and wires | Carbon treated
    indications that the deposits are fullerenes a combination of sp2 graphene and sp3 What is so spectacular is that each strand is completely insulated from the other strands in the same insulation sheath The insulation material polymers is not altered or damaged by the processing only a slight difference in color is observed This is the proof that the process is not a chemical reaction NEW INSULATING AND CONDUCTIVE PROPERTIES Although the strands are in direct contact they are fully insulated from each other by the atomic carbon layers This is proven in tests at room temperature with multi meters and physical tests with batteries 9V and lighting where current was conducted through wires that were directly twisted round each other This means that a new proprietary type of wire has been developed which can co conduct several strengths of current at the same time through their different strands and this will mean a revolution for all kinds of electric and electronic design This approach can also be used for the design of transistors and integrated circuits For example surfaces with only a few atomic carbon layers such as sp2 Graphene with ballistic conductive properties can be mounted directly on each other while remaining insulated from each other With techniques like etching special circuits can be made Mr Keshe It is clear that we have found a number of new principles of atomic interactions and reaction on the atomic level which were unknown till now We developed methods of generating new processes in our reactors and the coating of wires which are still in their insulation sheath is just one of the industrial applications we see When you are working at the atomic and nano level you are thinking in other sizes Let s say if the carbon atoms were

    Original URL path: http://keshefoundation.org/applications/materials/carbon-treated/75-atomic-carbon-treated-cables-and-wires-en?tmpl=component&print=1&layout=default&page= (2016-02-12)
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  • New materials | New materials
    LIGHTING APPLIANCES AND TOOLS THAT NEED NO ELECTRIC WIRING New types of lamps Keshe plasma reactors can be used in all kinds of lamps and LED s which will be powered for years New types of appliances and tools Keshe plasma reactors can be used in all kind of appliances gadgets and tools which will be powered for years ENTERTAINMENT AND SPORTS 3D television and computer screens where power is no concern Floating surf boards enough said Bicycles that levitate without wheels Diving clothes that can float in any depth and as long as one likes without side effects COLD AND HOT FUSION FOR PRODUCTION OF NEW MATERIALS For magnetic confinement of plasma for creation and fusion of atoms in a reactor that has gravity and a powerful magnetic field WELDING OF ELEMENTS This is a totally new concept that in order to achieve heavier elements atoms can be connected by being welded to each other instead of trying to use fusion which is impossible for matters above the atomic structure of iron due to the atomic energy barrier CREATION OF DARK MATTER Creation of elements 113 115 required for travel in deep space without needing fuel using the gravitation

    Original URL path: http://keshefoundation.org/applications/materials/new-materials/118-new-materials (2016-02-12)
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  • New materials | New materials
    3D television and computer screens where power is no concern Floating surf boards enough said Bicycles that levitate without wheels Diving clothes that can float in any depth and as long as one likes without side effects COLD AND HOT FUSION FOR PRODUCTION OF NEW MATERIALS For magnetic confinement of plasma for creation and fusion of atoms in a reactor that has gravity and a powerful magnetic field WELDING OF

    Original URL path: http://keshefoundation.org/applications/materials/new-materials/118-new-materials?tmpl=component&print=1&layout=default&page= (2016-02-12)
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  • Keshe Power Cells | Power cells
    new technology is under patent application At the same time these panels are able to capture CO2 and CH4 from the air and convert them to a liquid state CO2 and CH4 are important greenhouse gases liquid CO2 and liquid CH4 The image on the left shows two containers with a gray white deposit of liquid jelly like CO2 with water on top The third tube contains a solution of CH4 with a greenish blue CH4 deposit at the bottom All these materials were tested by several types of spectroscopy at a university in Belgium a tube with CH4 powder CH4 deposit in solution CH4 solution tube with solid CO2 tube with liquid CO2 This image shows five tubes from left to right a tube with CH4 powder a CH4 deposit in solution a CH4 solution one with solid CO2 one with liquid CO2 Download this photo in high quality 3 7 Mb solid CO2 at room temperature Photo of solid CO2 at room temperature This mastic like substance is not dry ice which is the state we would normally consider solid CO2 to be Therefore we consider it to be in GANS state GA s N ano S olid state Download above photo in higher quality size 1 1 Mb solid CO2 hold in the hand The solid CO2 is at room temperature and can be squeezed or handled like chewing gum or mastic The next image shows the IR spectroscopy graph of the CO2 substance The CO2 jelly is measured at 2630 wavelength of the spectrum where the asymmetric stretch is normally predicted at 2640 cm 1 ref science widener edu so we have an almost perfect match due to the high purity nano material IR spectroscopy graph of the CO2 substance More information and more spectroscopic graphs

    Original URL path: http://keshefoundation.org/applications/energy/power-cells/83-keshe-power-cells-en (2016-02-12)
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