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ABOUT HAYDRO

HAYDRO PROCESS

Introducing our revolutionary electrolysis process that splits plain water into hydrogen and oxygen atoms with just press of a button. Our unique and specialized technology makes it possible to produce elements in a safe and efficient way. Experience the power of hydrogen and oxygen with our innovative solution.

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Proton Exchange Membrane

The proton exchange membrane (PEM) a vital part of our hydrogen water bottles that use electrolysis to produce hydrogen-infused water. It is a thin, semi-permeable membrane that separates the anode and cathode chambers the electrolysis chamber.

Solid Polymer Electrolytic

Negative Ion Electrolysis

Electrolysis is a process used in our hydrogen water to create hydrogen-infused water. During negative electrolysis, the anode promotes the production of oxygen gas (O2) and hydrogen ions (H+) in the water, while the cathode produces hydroxide ions (OH-).

Platinum coated solid polymer electrolytes (SPEs) are a highly reliable and safe option for liquid electrolytes. With excellent mechanical properties and high ionic conductivity, our devices are more efficient than ever before. Chooses for a superior performance and peace of mind.

Discover The Benefits: How Hydrogen Supports

Your Health And Well-Being

How Haydro actually works?

Based on scientific research, hydrogen has been found to act as a powerful antioxidant when consumed or inhaled. It can help reduce oxidative stress and inflammation in the body, leading to improved cellular function, energy metabolism, and overall health. Its small size also allows it to easily penetrate cells, making it a potentially effective therapeutic agent for various physiological processes.

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The Heart Of Haydro Proton Exchange

Membrane Technology

The Proton Exchange Membrane is the heart of our hydrogen infusion machines aka IonBottles. The proton exchange membrane (PEM) is an advanced level Japanese membrane similar to the one used in the expensive larger machines.
Water at the anode provides the source of H+ ions. Then the PEM permits migration of H+ ions from anolyte to cathode. At the cathode, H+ ions combine with electrons from the power supply (reduction reaction) to form H atoms which pair-up to form molecular hydrogen Hâ‚‚ gas.
Finally any left over oxygen, chlorine gas produced at the anode (through oxidation of hydroxide) vents when the lid is removed or through the bottom on our Pro model. Leaving only 99.9% pure hydrogen-rich water.

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