ZenO Technology: The Science Behind Ultra‑High Dissolved Oxygen

🔬 Aerospace‑Inspired Oxygen Stabilization

ZenO is built on a proprietary oxygen‑stabilization method derived from principles used in aerospace material science. Traditional water can only hold a limited amount of dissolved oxygen before it rapidly escapes into the atmosphere. ZenO overcomes this limitation by using a mineral‑ion matrix that binds and stabilizes oxygen molecules at concentrations far beyond natural solubility limits.

This matrix acts as a temporary carrier structure, maintaining oxygen in a highly dissolved, bioavailable state until it reaches the gastrointestinal tract.


⚗️ Mineral‑Ion Oxygen Binding Mechanism

At the core of ZenO’s formulation is a sea‑salt–derived ionic lattice. This structure:

This mechanism allows ZenO to retain ultra‑high dissolved oxygen levels while remaining chemically stable and safe for consumption.


🧬 Bioavailability Through the GI Tract

Unlike gaseous oxygen, which is absorbed primarily through the lungs, ZenO’s dissolved oxygen is designed for enteric absorption:

This pathway is aligned with known mechanisms of dissolved gas absorption in the digestive system.


⚙️ Why This Technology Matters

ZenO’s stabilization method addresses the key limitations of conventional oxygenated water of which 

🌐 A New Frontier in Oxygen Delivery

ZenO represents a convergence of aerospace engineering, water chemistry, and human physiology. By stabilizing oxygen at concentrations previously considered impractical, ZenO provides a novel pathway for supporting the body’s natural oxygen needs.

This technology is designed for individuals seeking a science‑driven, non‑invasive method to enhance daily oxygen availability and cellular function.