Syringe Filters, 25 mm, Cellulose Acetate, 0.45 um porosity. Polypropylene, Antarisz Brand. 1000/CS.
Additional Info:
Antarisz brand of Cellulose Acetate (CA) filters are known for their low protein binding and hydrophilic properties, making them ideal for various filtration applications. These filters are composed of cellulose acetate, which provides excellent flow rates and thermal stability.
Features
Hydrophilic Nature: Naturally hydrophilic, CA filters do not require pre-wetting, making them efficient for aqueous solutions.
Low Protein Binding: One of the lowest protein binding filters available, ensuring minimal loss of valuable proteins during filtration.
Thermal Stability: Can withstand temperatures up to 135°C (275°F), making them suitable for autoclaving and steam sterilization.
Chemical Compatibility: Compatible with a wide range of chemicals, including dilute acids, bases, and organic solvents.
Applications
Biological and Clinical Analyses: Ideal for applications requiring maximum protein recovery, such as enzyme and protein filtration.
Environmental Monitoring: Used for filtering environmental water samples and air monitoring.
Pharmaceuticals: Employed in the filtration of pharmaceutical solutions to ensure purity and sterility.
Specifications
Material: Pure cellulose acetate.
Autoclavable: Can be sterilized by autoclaving without compromising filter integrity.
Effective Filtration Area: Approximately 4.6 cm²
Hold-Up Volume: Less than 100 microliters.
Benefits
High Flow Rates: Ensures efficient filtration processes, reducing filtration time.
Versatility: Suitable for a wide range of applications, from biological analyses to environmental monitoring.
Reliability: Provides consistent and reliable results due to uniform pore structure and low adsorption characteristics.
Cellulose Acetate filters are a versatile and reliable choice for laboratories and industries requiring high-quality filtration. Their unique properties make them suitable for a wide range of applications, ensuring efficient and effective filtration processes.