Vystar Corp (VYST)

[chiflow]

Biggest thing the MIT Engineer said, "The first person in the field with the patent gets 50% of the market".

(Notes from our meeting)

Three themes where Hughes reactor is Catalyst to more efficient process

1. Cavitation- turbulence, agitation... like soda pop fizzling
This promotes mixing (say of chemicals); mixtures need lots of agitation and this device is an agitation steroid
Taking it up a notch, in a basic mixture, 2 different products with 2 separate chemical structures combine to form 1 reactant. The reactant is a combination of the 2 separate chemical structures. Say 2 carbons (2C) and 1 oxygen (O2). The bonds they have are broken via cavitation, the molecules separate and become 2CO (2 molecules of carbon monoxide).
2C + O2 --> 2CO

Agitation allows this to happen, the Hughes Reactor stimulates agitation, allowing the reaction to happen faster, conserving energy and time.

2. Thermodynamic- This primarily has to do with atomization. For example, a refrigerator coolant (liquid) is atomized and turns into a gas. By catalyzing such a reaction, the Hughes Reactor could be used for more efficient refrigeration, as well as other reactions involving thermodynamic exchanges, but as I will get to later, there is a hierarchy of use, which puts this implementation secondary to say medical device implementation.

3. Electromagnetic Stimulation/Ionization- this has to do with the "shockwaves" the device creates. Shockwaves are important for both dialysis and water filtration. The problem with dialysis, as well as catheters, is the biofilm that forms as it contains bacteria that can lead to infection. The geometric structure of the (optional) catalytic rings creates a directional flow of electromagnetic stimulation running in both directions of the device. This stimulation breaks up the biofilm, removing the dangerous potential for infection.
Water filtration is also a beneficiary of this aspect as most reverse osmosis filtration systems use micro pores that allow water to pass but contaminants are stopped. However, the contaminants end up blocking the pores and need to be cleaned (costly and time . The Hughes Reactor eliminates pore blockage by "shocking" the blockage from the pores, keeping the water flowing and filtration process running smoothly. In addition to water filtration, the Hughes Reactor is a huge benefit to cities and individuals affected by hard water. The Engineer informed me that many chemicals are added to tap water to treat it, he even said there is an anti-rust chemical added so the pipes won't rust...another reason never to drink it! Regardless, the Hughes Reactor would be invaluable to those affected by hard water as it would keep the pipes clean so that this does not happen (also leading to less chemicals being added to our water supply)



All in all, the device has unlimited uses. Heck, it could even be used in oil refining to produce a higher octane with significantly increased efficiency. However, you have to focus on margins and speed of implementation.
Note- according to the press release, RXAir is already using the Hughes Reactor and thus has been omitted from the following.
A clear number 1 is the Medical Industry as the medical industry has the highest margins and has the capital to spend on the Hughes Reactor. Brian Stone won an award for integrating the Hughes Reactor into a dialysis machine/tubing and is already testing the product with DaVita, where he is the Medical Director of several centers. Additionally, the product is being tested with Bayer for use in inhalers as it creates a better atomization of asthma drugs for inhalation. Along these lines, the last press release discussed e-cigarettes. As a JUUL user, I am bugged by air-bubbles forming in the liquid and inconsistency in "hits", that is to say, the initial inhale will produce the desired cloud of vapor but every hit after burns less efficiently and produces smaller and smaller clouds. While the vapor market is rather saturated, this technology is revolutionary and JUUL and other companies would be interested in licensing our technology. Down the line, as the cannabis market expands, there will be higher demand for devices that can efficiently vape THC products (dab oil, shatter, etc) and the Hughes Reactor can produce a demonstratively consistent hit, which, is important to both recreational and medicinal users as both desire dose consistency.

After kidney dialysis, I personally believe the second step will be catheters because the process is so similar to kidney dialysis. The third step would be inhalers and the fourth step will be water filtration as these will produce the highest margins. It is very very important to consider that Vystar has already entered into testing with DaVita and Bayer in these areas and partnerships/deals are to be coming this year (remember, we are on a fasttrack for NASDAQ, management said that knowing how close they are to completion of these big contracts). After completing deals in these areas, who knows where we will strike next, chemical mixing, refrigeration, vaporization, natural gas/oil refining? Luckily, the patent for the Hughes Reactor, as mentioned by my MIT Engineer friend, covers a wide berth of industries so as to have maximum IP protection. This said, we have revolutionary technology, active testing in high margin fields and there is limitless, absolutely limitless potential for this device.
NASDAQ is truly, an understatement