PureNanoTech’s research-focused nanobubble systems deliver ultra-high concentration nanobubbles with extremely low flow rate capability — enabling controlled experiments, reproducible results, and advanced scientific study.
Researchers are exploring the potential of different gas nanobubbles across a wide range of application areas. Examples include:
However, many commercial nanobubble systems are designed for industrial flow rates — not laboratory-scale experimentation.
PureNanoTech addresses this gap by offering research-ready systems capable of extremely slow flow rates and exceptionally high nanobubble concentration, making them ideal for controlled scientific investigation.
PureNanoTech nanobubble generators are designed to support rigorous academic and laboratory environments where repeatability and stability are essential.
PureNanoTech’s nanobubble generators are validated through nanoparticle tracking analysis (NTA), zeta potential testing, and long-term stability studies — providing researchers with measurable, repeatable nanoscale conditions.
Nanobubbles observed via Nanoparticle Tracking Analysis, with high concentrations of over 10⁹ particles/mL.
Stable nanobubble concentrations maintained over extended storage periods (up to 100+ days).
Strong electrostatic stability across different water conditions, supporting suspension stability.
Peak size around ~120 nm with narrow distribution, verified by NTA measurement.
Researchers are exploring nanobubble applications across multiple scientific disciplines.
PureNanoTech collaborates with universities and research institutions to advance the understanding of nanobubble science.
The SGR1 unit is designed specifically for laboratory and research environments. It provides:
