Max. Pressure | 62 Mpa / 620 bar / 9000 psi | 103.4 Mpa or 1034 bar or 15000 psi | up to 1000 bar (15,000psi) | 62 Mpa / 620 bar / 9000 psi | up to 1000 bar (15,000psi) |
Description | The Thermo Scientific ™ UltiMate™ 3000 Binary Standard System provides a fast gradient response, excellent flow stability, and a broad choice of high-data-rate detection technologies to ensure reliable results from every sample, making the UltiMate 3000 Binary Standard System an ideal choice for The Thermo Scientific ™ UltiMate™ 3000 Binary Standard System provides a fast gradient response, excellent flow stability, and a broad choice of high-data-rate detection technologies to ensure reliable results from every sample, making the UltiMate 3000 Binary Standard System an ideal choice for demanding routine environments or high-throughput research and development laboratories.... Read More | The Thermo Scientific ™ UltiMate™ 3000 BioRS Dual System offers outstanding LC and advanced bio-UHPLC capabilities. Two independently operating gradient pumps and smart column switching save time. Offline fractionation combines noncompatible chemistries in one workflow. With our unique fractionationThe Thermo Scientific ™ UltiMate™ 3000 BioRS Dual System offers outstanding LC and advanced bio-UHPLC capabilities. Two independently operating gradient pumps and smart column switching save time. Offline fractionation combines noncompatible chemistries in one workflow. With our unique fractionation autosampler, the system can completely automate multiple UHPLC separations, e.g., ion exchange chromatography for variant analysis in MAb samples following a purification/aggregation test in the first dimension run.... Read More | The Thermo Scientific™ UltiMate™ 3000 Rapid Separation Quaternary System supports the use of up to four solvents at up to 15,000 psi (100 MPa, 1000 bar) for fast routine applications or method development. With excellent flow stability, a large choice of detection technologies and a recommended flowThe Thermo Scientific™ UltiMate™ 3000 Rapid Separation Quaternary System supports the use of up to four solvents at up to 15,000 psi (100 MPa, 1000 bar) for fast routine applications or method development. With excellent flow stability, a large choice of detection technologies and a recommended flow rate range from 200µL/min to 8.0mL/min, it adapts easily for multiple users running diverse methods in routine environments as well as research and development laboratories. It is your most flexible system choice for established and novel liquid chromatography workflows.... Read More | Thermo Scientific ™ UltiMate™ 3000 Quaternary Standard system offers adjustable gradient delay volume, four-solvent gradient support, excellent flow stability and an unique choice of detection technologies. The UltiMate 3000 Quaternary Standard system excels where moderately fast gradient response Thermo Scientific ™ UltiMate™ 3000 Quaternary Standard system offers adjustable gradient delay volume, four-solvent gradient support, excellent flow stability and an unique choice of detection technologies. The UltiMate 3000 Quaternary Standard system excels where moderately fast gradient response is acceptable to gain the advantages of improved flexibility e.g., multiple solvents, extended column washes, ternary or quaternary gradients and method development scenarios in high-throughput routine environments as well as in demanding research and development laboratories.... Read More | The Thermo Scientific™ Vanquish™ Flex Binary UHPLC system is biocompatible with a state-of-the-art binary high-pressure pump and state-of-the-art binary solvent blending. This ultra high performance liquid chromatography system shares all Vanquish values, such as a design focused on uptime, The Thermo Scientific™ Vanquish™ Flex Binary UHPLC system is biocompatible with a state-of-the-art binary high-pressure pump and state-of-the-art binary solvent blending. This ultra high performance liquid chromatography system shares all Vanquish values, such as a design focused on uptime, robustness and reliability.... Read More |