The NICO BIOGEN Nanobubble System enhances oxygen delivery and stability in cell culture and bioprocess applications. Ultra-fine nanobubbles improve oxygen transfer and gas–liquid interaction, supporting healthier cell growth and consistent performance.
It integrates seamlessly with bioreactors, lab systems, and biotech process platforms for reliable and efficient operations.
Advancing oxygen transfer and bioprocess performance with advanced
nanobubble technology.
Enhances oxygen availability for healthier and more efficient cell growth.
Supports stable conditions for improved stem cell viability and expansion.
Improves gas transfer efficiency for consistent bioreactor performance.
Boosts productivity and consistency in biopharmaceutical manufacturing.
Enables efficient oxygen delivery for high cell density cultures.
Supports reliable testing and optimization of biological processes.
Measurable improvements in cell growth, bioprocess efficiency, and
overall system performance.
Improves oxygen transfer and maintains stable dissolved oxygen levels in culture media.
Supports healthy growth of sensitive mammalian and stem cell cultures.
Enhances bioreactor efficiency and overall process consistency.
Suitable for research, development, and scale-up with seamless integration into lab and pilot systems.
Choose the right NICO BIOGEN model to enhance cell culture performance and bioprocess efficiency.
| Models | Units | NICO BIOGEN 0.05 | NICO BIOGEN 0.4 |
|---|---|---|---|
| Flow Rate | m³/hr | 0.054 | 0.36 |
| LPH | 54 | 360 | |
| System Pressure | bar | 2 | 1.4 |
| Nanobubble Size | nm | 50-200 | 50-200 |
| Zeta potential | mV | up to -43 mV | up to -43 mV |
| Gas usage | Air, Oxygen | Oxygen | |
| Oxygen Flow Rate | LPM | 0.7 | 1.2 |
| Oxygen Pressure | PSI | >7 | >7 |
| Ozone Flow Rate | GPH | -NA- | -NA- |
| Ozone Pressure | PSI | -NA- | -NA- |
| Suction Line Size | Millimeter | -NA- | 12mm tube |
| Discharge Line Size | Millimeter | -NA- | 12mm tube |
The system is ideal for mammalian and stem cell culture, bioreactor oxygenation, protein and vaccine production, and high-density bioprocess development in biotech and biopharmaceutical applications.
By generating ultra-fine nanobubbles, it enhances oxygen transfer, stabilizes dissolved oxygen levels, and creates a more controlled environment for improved cell growth, viability, and process consistency.
Yes, it is designed for use in laboratory studies, process development, and pilot-scale or production bioreactor systems, supporting scale-up and consistent performance.
