CAT#:
60-1974
Sartorius
Vivaspin® 100 Polyethersulfone Centrifugal Concentrators
10,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
50,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
5,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
50,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
100,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
100,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
1,000,000 MWCO, PES, 2 Concentrators/Unit
1,000,000 MWCO, PES, 10 Concentrators/Unit
300,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
30,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
10,000 MWCO, Polyethersulfone, 2 Concentrators/Unit
5,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
300,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
30,000 MWCO, Polyethersulfone, 10 Concentrators/Unit
0.2µm, Polyethersulfone, 10 Concentrators/Unit
15 product variations: View Options
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Product Overview
- Easy to assemble and handle
- High flux PES membranes
- High target molecule recoveries
- Largest capacity centrifugal device; for samples up to 90 mL
- Total process flexibility
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 2 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Specifications
| Application | Macromolecule Concentration Desalting Buffer Exchange |
| Industry | Pharma / Biotech |
| Market | Research Environmental |
| Animal Components | No |
| Certification | ISO 9001 |
| Membrane Area | 23.5 cm² |
| Overall Length | 123 mm |
| Total Length With Pressure-fuge Head | 197 mm |
| Maximum G-force Swing-out Rotor | 2,000 g |
| Rotor Cavity | To fit 250 mL (62 mm) centrifuge bottles (maximum cavity depth 105 mm) |
| Concentrator Body/sleeve | Polycarbonate (PC) |
| Concentrator Cap | Polypropylene (PP) |
| Filtrate Vessel | Polycarbonate (PC) |
| Membrane Material | Polyethersulfone (PES) |
| Pressure Head / Pressure-fuge Head | Polyoxymethylene / Aluminum |
| Maximum Operating Pressure | 5 bar (75 psi) |
| Recommended Speed | 500 - 2,000 g |
| MWCO | 10 kDa |
| Brand | Vivaspin® |
| Device Type | Centrifugal Gas Pressure |
| Pack Size | 10 |
| Rotor Type | Swing-out rotors |
| Sample Type | Protein Peptide Nanoparticles Virus Nucleic Acid Exosome VLP |
| Dead Stop Volume | 350 µL |
| Hold-up Volume | 250 µL |
| Maximum Capacity, Swing Bucket Rotor | 90 mL |
| Minimum Recirculation Volume | N/A |
| Volume Range | 20 – 98 mL |
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Lab Filtration Application Note Reference List
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Vivaspin® Turbo 4 PES: An Economic Approach to Separate Disease Metabolites and Proteins
- Concentration of Mammalian Cell Culture Supernatants with Vivaspin® Turbo 15 and Amicon® Ultra-15 Devices
- Sample Preparation for Radio Immunoassay with Vivaspin 2 Ultrafiltration Devices
- High Recovery of Cationised Protein using Vivaspin® Filtrate
- Using Ultrafiltration with Vivaspin® 500 as an Alternative to Sample Volume Reduction by Lyophilization
- Desalting and Buffer Exchange with Vivaspin® Centrifugal Concentrators
- Protein Complex Concentration with Vivaspin® Prior to Fourier Transform Infrared (FTIR) Spectroscopy
- De-lipidation and de-proteinization or hyperlipidaemic serum samples using Vivaspin®
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Lab Ultrafiltration and Purification Products Catalog
- Laboratory Filtration Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Air pressure controller - for in vitro use only
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Vivaspin 100
- Vivacell pressure products — Connection to alternative pressure sources
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Technical Documents
- Sartorius Ultrafiltration Products for the Concentration and Purification of Viruses Application Note
- Sartorius Ultrafiltration Products in the Preparation of Biological and Medical Nanocarriers - a Short Review
- Vivaflow® and Vivaspin® Workflow in Protein Research Laboratories
- Treatment of Vivaspin® Concentrators for Improved Recovery of Low-Concentrated Protein Samples
- Concentration of Soluble and Membrane Proteins by Pressurized Ultrafiltration with Vivaspin 100
- Lab Filtration Application Note Reference List
- Lab Ultrafiltration – Tips and Tricks
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method Comparability Guide
- Laboratory Filtration Products Catalog
- Lab Ultrafiltration and Purification Products Catalog
- Vivaspin - Comprehensive Solutions for Centrifugal and Pressurized Sample Concentration Datasheet
- Laboratory Ultrafiltration: Frequently Asked Questions Flyer
- Quick Start Guides: An Overview for Lab Ultrafiltration and Chromatography Products
- Find Your Optimal Centrifugal Concentrator
- Laboratory Ultrafiltration: How to Choose the Optimal Device & Method
- Ultrafiltration Lab Qualification Guide Poster
- Laboratory Ultrafiltration - The Most Complete Product Range Poster
- Laboratory Ultrafiltration Quick Reference Guide Poster
- Vivacell pressure products — Connection to alternative pressure sources
- Vivaspin 100
Detailed Description
The Vivaspin 100, when used as a centrifugal device, fits only into swing bucket rotors accepting 250 ml bottles. The Vivaspin 100 can not be used in a fixed angle rotor. Vivaspin 100 units can also be used for single or extremely sensitive samples in the pressurized mode only and left on the bench or placed on a laboratory shaker for faster concentration. It can also be kept in a pressurized mode in the refrigerator. Handling is made easy by use of quick connectors. In whichever mode Vivaspin 100 is used, the vertical membrane design inhibits membrane fouling while the built-in dead stop impedes concentration to dryness and loss of sample.
15 Product Options
Catalog Number:
60-1970
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 10 kDa |
| Quantity | 10 Filters |
| Description | 10,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1976
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 50 kDa |
| Quantity | 10 Filters |
| Description | 50,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1971
List Price:
$207.3
Your Price:
$177.7
Specifications:
| MWCO | 5 kDa |
| Quantity | 2 Filters |
| Description | 5,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1975
List Price:
$207.3
Your Price:
$177.7
Specifications:
| MWCO | 50 kDa |
| Quantity | 2 Filters |
| Description | 50,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1977
List Price:
$207.3
Your Price:
$177.7
Specifications:
| MWCO | 100 kDa |
| Quantity | 2 Filters |
| Description | 100,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1978
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 100 kDa |
| Quantity | 10 Filters |
| Description | 100,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1981
List Price:
$207.3
Your Price:
$177.7
Specifications:
| MWCO | 1,000 kDa |
| Quantity | 2 Filters |
| Description | 1,000,000 MWCO, PES |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1982
List Price:
$927
Your Price:
$794.6
Specifications:
| MWCO | 1,000 kDa |
| Quantity | 10 Filters |
| Description | 1,000,000 MWCO, PES |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1979
List Price:
$201.4
Your Price:
$172.65
Specifications:
| MWCO | 300 kDa |
| Quantity | 2 Filters |
| Description | 300,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1973
List Price:
$207.3
Your Price:
$177.7
Specifications:
| MWCO | 30 kDa |
| Quantity | 2 Filters |
| Description | 30,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1969
List Price:
$201.4
Your Price:
$172.65
Specifications:
| MWCO | 10 kDa |
| Quantity | 2 Filters |
| Description | 10,000 MWCO, Polyethersulfone |
| Qty/Unit | 2 Concentrators/Unit |
Catalog Number:
60-1972
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 5 kDa |
| Quantity | 10 Filters |
| Description | 5,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1980
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 300 kDa |
| Quantity | 10 Filters |
| Description | 300,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1974
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 30 kDa |
| Quantity | 10 Filters |
| Description | 30,000 MWCO, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
Catalog Number:
60-1984
List Price:
$926.9
Your Price:
$794.5
Specifications:
| MWCO | 0.2 µm |
| Quantity | 10 Filters |
| Description | 0.2µm, Polyethersulfone |
| Qty/Unit | 10 Concentrators/Unit |
| Catalog # | Description | Qty/Unit | MWCO | Quantity | Price (USD) | Quantity | Add to Order | |
|---|---|---|---|---|---|---|---|---|
| 60-1969 | 10,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 10 kDa | 2 Filters | ||||
| 60-1970 | 10,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 10 kDa | 10 Filters | ||||
| 60-1971 | 5,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 5 kDa | 2 Filters | ||||
| 60-1972 | 5,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 5 kDa | 10 Filters | ||||
| 60-1973 | 30,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 30 kDa | 2 Filters | ||||
| 60-1974 | 30,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 30 kDa | 10 Filters | ||||
| 60-1975 | 50,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 50 kDa | 2 Filters | ||||
| 60-1976 | 50,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 50 kDa | 10 Filters | ||||
| 60-1977 | 100,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 100 kDa | 2 Filters | ||||
| 60-1978 | 100,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 100 kDa | 10 Filters | ||||
| 60-1979 | 300,000 MWCO, Polyethersulfone | 2 Concentrators/Unit | 300 kDa | 2 Filters | ||||
| 60-1980 | 300,000 MWCO, Polyethersulfone | 10 Concentrators/Unit | 300 kDa | 10 Filters | ||||
| 60-1981 | 1,000,000 MWCO, PES | 2 Concentrators/Unit | 1,000 kDa | 2 Filters | ||||
| 60-1982 | 1,000,000 MWCO, PES | 10 Concentrators/Unit | 1,000 kDa | 10 Filters | ||||
| 60-1984 | 0.2µm, Polyethersulfone | 10 Concentrators/Unit | 0.2 µm | 10 Filters |
!