Syringe and Disc Filters NanoCeram® Electropositive Syringe Filters are specifically designed to combine high throughputs and maximum sample recovery when filtering or sterilising viscous proteineceous solutions. The media has a high capacity for particles as large as tens of microns or as small as a few nanometers. It is well suited for maximum sample recovery such as tissue culture media preparation, sterile or non-sterile filtration and clarification of biological fluids, protein and enzyme filtrations, hybridization buffers, and other aqueous solutions. Biological Filtration NanoCeram® alumina fibers attract and retain virus and other macromolecules by electrostatic forces.  These fibers have been incorporated into fibrous ("depth") filters and have found to have ~ 6-7 logs of virus retention even at flow rates several orders of magnitude greater than could be obtained using ultraporous membranes. A single layer of media retains greater than 99% of 30 nanometer monodisperse latex spheres or 25 nm virus, giving it an Absolute rating of 0.03 microns.   While Absolute 0.2 µ membranes are transparent to virus, 3 layers of NanoCeram® retain greater than 99.9999% with fow rates hundreds of times greater than such membranes. The NanoCeram filter is effective over pH 5-10, water temperatures of 4 to 50 degrees C and in the presence of dissolved salts Key Features include: Rapidly adsorbs particles, no matter how small.  Wide pH range from pH 5-10 Operating temperature from 4 to 500 Celsius Operates in saline solutions Flow rates hundreds of times greater than membranes Ideal for applications requiring maximum sample recovery Significant cost advantages over traditional media Connections: Female LuerLok inlet, Key Applications: Sampling biological fluids Filtration of DNA, RNA and Endotoxins Pharmaceutical Processing High Performance Liquid Chromatography High throughput, low binding filter units for non-sterile aqueous filtrations Recovery of Biopharmaceuticals High throughput clarification of solutions Specialty Chemicals

Syringe and Disc Filters NanoCeram® Electropositive Syringe Filters are specifically designed to combine high throughputs and maximum sample recovery when filtering or sterilising viscous proteineceous solutions. The media has a high capacity for particles as large as tens of microns or as small as a few nanometers. It is well suited for maximum sample recovery such as tissue culture media preparation, sterile or non-sterile filtration and clarification of biological fluids, protein and enzyme filtrations, hybridization buffers, and other aqueous solutions. Biological Filtration NanoCeram® alumina fibers attract and retain virus and other macromolecules by electrostatic forces.  These fibers have been incorporated into fibrous ("depth") filters and have found to have ~ 6-7 logs of virus retention even at flow rates several orders of magnitude greater than could be obtained using ultraporous membranes. A single layer of media retains greater than 99% of 30 nanometer monodisperse latex spheres or 25 nm virus, giving it an Absolute rating of 0.03 microns.   While Absolute 0.2 µ membranes are transparent to virus, 3 layers of NanoCeram® retain greater than 99.9999% with fow rates hundreds of times greater than such membranes. The NanoCeram filter is effective over pH 5-10, water temperatures of 4 to 50 degrees C and in the presence of dissolved salts Key Features include: Rapidly adsorbs particles, no matter how small.  Wide pH range from pH 5-10 Operating temperature from 4 to 500 Celsius Operates in saline solutions Flow rates hundreds of times greater than membranes Ideal for applications requiring maximum sample recovery Significant cost advantages over traditional media Connections: Female LuerLok inlet, Key Applications: Sampling biological fluids Filtration of DNA, RNA and Endotoxins Pharmaceutical Processing High Performance Liquid Chromatography High throughput, low binding filter units for non-sterile aqueous filtrations Recovery of Biopharmaceuticals High throughput clarification of solutions Specialty Chemicals