The Essence of Aether's Technology
At the heart of Aether's breakthrough technology lies our systems, capable of producing a unique plasmic form of the oxygen molecule known as Dioxygenyl (O2+). This extraordinary molecule is not a conventional free radical but rather a free radical holder with remarkable properties.
Natural Presence in the Atmosphere
Dioxygenyl occurs naturally in our atmosphere, acting as an atmospheric free radical holder. Present in the stratosphere layer, Dioxygenyl is a result of plasmic UV radiation from the sun and the Earth's magnetic field. This molecule makes continuous horizontal movements, transitioning from the stratosphere to the troposphere, the layer we inhabit.
Environmental Impact
While Dioxygenyl is naturally present in minute amounts at sea level, its concentration increases significantly at higher altitudes, reaching up to 100 parts per billion (PPB) at approximately 2,500 meters. This natural occurrence showcases the dynamic interplay between atmospheric layers and emphasizes the environmentally conscious design of our systems.
Distinguishing Dioxygenyl from Ozone
It's essential to note that Dioxygenyl is distinct from the ozone gas, commonly known as triozone in industry. Ozone, a highly toxic gas with atmospheric free radical characteristics, is not the focus of our technology. Aether's commitment to safety and sustainability sets our systems apart in the field of energized oxygen technology.
Natural Presence in the Atmosphere
Dioxygenyl occurs naturally in our atmosphere, acting as an atmospheric free radical holder. Present in the stratosphere layer, Dioxygenyl is a result of plasmic UV radiation from the sun and the Earth's magnetic field. This molecule makes continuous horizontal movements, transitioning from the stratosphere to the troposphere, the layer we inhabit.
Environmental Impact
While Dioxygenyl is naturally present in minute amounts at sea level, its concentration increases significantly at higher altitudes, reaching up to 100 parts per billion (PPB) at approximately 2,500 meters. This natural occurrence showcases the dynamic interplay between atmospheric layers and emphasizes the environmentally conscious design of our systems.
Distinguishing Dioxygenyl from Ozone
It's essential to note that Dioxygenyl is distinct from the ozone gas, commonly known as triozone in industry. Ozone, a highly toxic gas with atmospheric free radical characteristics, is not the focus of our technology. Aether's commitment to safety and sustainability sets our systems apart in the field of energized oxygen technology.
Natural Presence in the Atmosphere
Dioxygenyl occurs naturally in our atmosphere, acting as an atmospheric free radical holder. Present in the stratosphere layer, Dioxygenyl is a result of plasmic UV radiation from the sun and the Earth's magnetic field. This molecule makes continuous horizontal movements, transitioning from the stratosphere to the troposphere, the layer we inhabit.
Environmental Impact
While Dioxygenyl is naturally present in minute amounts at sea level, its concentration increases significantly at higher altitudes, reaching up to 100 parts per billion (PPB) at approximately 2,500 meters. This natural occurrence showcases the dynamic interplay between atmospheric layers and emphasizes the environmentally conscious design of our systems.
Distinguishing Dioxygenyl from Ozone
It's essential to note that Dioxygenyl is distinct from the ozone gas, commonly known as triozone in industry. Ozone, a highly toxic gas with atmospheric free radical characteristics, is not the focus of our technology. Aether's commitment to safety and sustainability sets our systems apart in the field of energized oxygen technology.
Contact
Please contact us to learn more about our technology or for any other enquiry.
Contact
Please contact us to learn more about our technology or for any other enquiry.
Contact