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| − | The philosophy of the Keshe Foundation is, plasma should be available for free to humanity. This is why all steps of production are open source and available at no cost to the public. Step by step instructions on how to produce different types of GANSes are available on this WIKI. The Foundation manufactures products. If you would like to purchase one of our many products, please go to the Keshe Foundations Webshop: https://store.keshefoundation.org/store/
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| | + | | <youtube width="400" height="220">https://www.youtube.com/watch?v=U7YG-vMm_q8&feature=youtu.be</youtube> |
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| | + | Nano-coated Copper is used for the most applications of Plasma Technology, but also all other materials can be Nano-coated. |
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| − | == Nano-Coating ==
| + | The coating is done chemically by etching with NaOH. In the course of the coating process "gaps" occur between the atoms of the outer Copper layer and the Nano-layers, which become the center of energy and information through specific magnetic field interactions. Microscopically small layers are formed on the Copper surface, which in turn consist of small particles that look like wires. Due to their size in the Nano-meter range (extremely small), these are called "Nano-wires". This is why coating is also referred to as Nano-coating. These Nano-layers have the property of growing during the coating process. |
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| − | [[File: Coating.png|thumb|300px|Main ways, how to coat Copper or other metals, Source: Keshe Foundation, 2016]]
| + | No matter if it is about the production of GANS or the use in devices, the Nano-coating belong to the basic component of Plasma Technology. |
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| − | The base material for the coating is Copper in any form. The coating is carried out either '''chemically by etching (steam coating with NaOH)''' or '''thermally by heating (Fire Coating by gas burner).''' During the coating process "gaps between the [outer most layers of Copper] atoms" are created. The coating is often referred to as Nano-coating, the layers of which build up during the process of the creation of the coating. The following video explains Nano-layers in details:
| + | '''Do not use Aluminium, Tin, or Lead in any shape or form in your Nano-coating process!''' |
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| − | <youtube width="400" height="220">https://www.youtube.com/watch?v=U7YG-vMm_q8&feature=youtu.be</youtube> | + | <div style="clear:both;"></div> |
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| − | == Additional opportunities ==
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| − | Nano-coating with heater and stain steel pot
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| − | A well working method for the Nano-coating is to make the Nano-coating with a stain steel pot and a heater. Escpecially when you don't have a warm environment around 25-35 degrees, which are optimal temperatures for a proper Nano-coating, this method is very usefull.
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| − | === Nano-Coating with a stain steel pot and heater ===
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| − | [[File:Nano-coating with stain steel pot description.jpg|thumb|500x500px|Nano-coating with stain steel pot description]]
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| − | This possibility comes from a Knowledge Seeker which achieves very good results with it. It's also very suitable in cold places, because a temperature of 25-35 degrees is very advantageous for a good Nano-Coating. The Caustic can also be reused, which is not possible with a plastic box. With this process you can control the temperature with a heater. It is important that the pot is made of stainless steel, as this material does not interact with the Caustic und that the pot closes well to prevent escaping steams. Also it seams that it is important, that the pot(/container) is round. So the steams have a better flow through it.
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| − | Here you should develop your own approach, as each heater and pot has different characteristics. For example, one heater or pot takes longer to heat and the other takes less. One is smaller, one is bigger and so on...
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| − | First of all, the plates should hang fully covered in the Caustic for 2-3 days (Phase 1: Caustic bath). Then remove so much Caustic that the plates are exposed. A remaining amount, which is then heated, remains in the pot.
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| − | In general it is a matter of heating up the Caustic to such an extent that vapours are produced in the pot, which the plates Nano coats. Once the caustic has been heated, leave it for a few hours at a low temperature and then use a multimeter or battery to draw off the current. Then you heat the caustic again and repeat this process. The more often you do this, the better the Nano-coating will be.
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| − | As you see on the picture beside, this is a possible construct and solution, how you can hang in the plates.
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| − | '''Additional:'''
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| − | It has been tested from this Knowledge Seeker, that if the plates are previously coated by the fire method, the Nano-coating process goes faster, because the molecules get opened up through the fire-coating.
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| − | '''Wear your safety equipment and make sure that the pot closes well and that you do not inhale the fumes!'''
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| − | === Polishing the Nano-Coating ===
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| − | A opportunity for making the Nano-coating much stronger is to polish it during a lot of repetitions of the Nano-coating.
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| − | For polishing a Nano-coating you use a very fine cloth, what you use for example to clean glasses. It’s finer than an 8.000 cent paper. You polish it in circles and then you Nano-coat it again. The top surface breaks through it and you more or less seal it and then you grow on this sealed surface new Nano-layers. From Nano-coating to Nano-coating the layers get stronger and stronger. If the Nano-coating is made several times, you can produce much more GANS with one piece.
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| − | === Nano-Coating with GANSes or other materials ===
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| − | When we use for the Caustic/Nano-coating process already Plasmafied water, for example CO2 GANS-water, the fields of the CO2 will be in the Nano-coating. If you already know what you want to do with it, you can do that. For example if you want to make a Pain Pen and use CO2/ZnO, you can use already the GANS of CO2 and ZnO and the GANS-water for the Caustic process. So the fields are inside and influence the effect positive. If you want to make clean CuO GANS with it, it isn't a good idea to use CO2/ZnO. Then you use CuO. If you want to make a Nano-coating with herbs, you can do it.
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| − | === Coating of plastic balls ===
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| − | In contrast to glass balls the plastic balls hold the fields rather inside.Tests showed, that Nano-coated plastic balls are much more efficient. The most common way to coat plastic balls is, just adding it to Caustic. The Caustic has to touch the inside and the outside, to coat both surfaces.
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| − | === Direct the Nano-Layer flow with a battery ===
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| − | For giving the Nano-coating the flow a direction, you can use a standard 1.5V battery, if you do not have a multimeter or if you want to be save, because sometimes multimeters go "crazy" and don't work right.<gallery>
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| − | File:Battery 1.5V batterie for directing the flow.jpg|Battery 1.5V holder
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| − | File:Battery 1.5V for directing the Nano-Layer flow.jpg|Battery 1.5V for directing the Nano-Layer flow.jpg
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| − | </gallery> | |
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| − | == Prepare Nano-coated material for GANS-production ==
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| − | Before you go into the production of GANS you have to wash the Nano-coated material, otherwise you add the Caustic plates or coils immediately into your containers of GANS production. As long as you do not need your plates, leave them in your container, you can store them there, without washing. As soon as you wash your plates or coils, you stop the growth of Nano-layers.
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Nano-coated Copper is used for the most applications of Plasma Technology, but also all other materials can be Nano-coated.
The coating is done chemically by etching with NaOH. In the course of the coating process "gaps" occur between the atoms of the outer Copper layer and the Nano-layers, which become the center of energy and information through specific magnetic field interactions. Microscopically small layers are formed on the Copper surface, which in turn consist of small particles that look like wires. Due to their size in the Nano-meter range (extremely small), these are called "Nano-wires". This is why coating is also referred to as Nano-coating. These Nano-layers have the property of growing during the coating process.
No matter if it is about the production of GANS or the use in devices, the Nano-coating belong to the basic component of Plasma Technology.
Do not use Aluminium, Tin, or Lead in any shape or form in your Nano-coating process!
