The Thermo Scientific Nalgene Nalgene Filter Unit is a high-performance 500 mL vacuum filtration system designed for sterile filtration of cell culture media, biological fluids, and aqueous solutions. Featuring a 0.20 µm SFCA membrane and polystyrene housing, this unit ensures fast flow rates and low protein binding, making it ideal for sensitive applications. Manufactured for clean, reliable, and contamination-free performance, it contains no wetting agents, which can affect sensitive cells. The upper structure separates easily from the receiver, and quick-disconnect tubing adapters simplify vacuum line attachment—perfect for modern laboratory workflows.
Product Features
- 0.20 µm SFCA membrane ensures superior flow rate and low protein binding
- Polystyrene housing with welded filter membrane on a strong support plate
- Contains no wetting agents—ideal for filtration of sensitive cell cultures
- Slide arms with quick-disconnect adapters for fast and easy vacuum connection
- Upper chamber easily detaches from receiver for simplified handling
- Designed for single-use filtration of media and biological solutions
What’s Included
- 12 sterile filter units (500 mL)
- Leakproof closure for filtrate storage
Benefits
- Preserves sensitive cells—formulated without wetting agents that could interfere with viability
- Excellent flow rates save time in filtration of high-volume samples
- Low protein binding reduces sample loss, preserving critical biomolecules
- Designed for safe, sterile filtration—ideal for cell culture, biological fluids, and aqueous media
- Quick setup with intuitive slide-arm and tubing connector design
Why Choose Thermo Scientific Nalgene Nalgene Filter Units?
Trusted by laboratories worldwide, Thermo Scientific Nalgene Nalgene Filter Units combine high-capacity, low-binding SFCA membranes with a chemically inert polystyrene body to deliver precise, sterile filtration. With no added wetting agents and a leakproof storage cap, these filters are ideal for sensitive biological workflows. Their ergonomic design and fast throughput make them the smart choice for cell culture and aqueous solution processing in demanding lab environments.
