| Max. Pressure | 103.4 Mpa or 1034 bar or 15000 psi | 62 Mpa / 620 bar / 9000 psi | 700 bar (10,000 psi) | up to 1000 bar (15,000psi) | up to 1000 bar (15,000psi) |
| Description | 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 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 | Deliver reliable results with the Thermo Scientific™ Vanquish™ Core HPLC systems. Built on the Vanquish HPLC platform, the Vanquish Core HPLC system enables your lab to evolve to meet both current and future needs. New enhancements such as System Health Monitoring and the Vanquish Solvent Monitor, Deliver reliable results with the Thermo Scientific™ Vanquish™ Core HPLC systems. Built on the Vanquish HPLC platform, the Vanquish Core HPLC system enables your lab to evolve to meet both current and future needs. New enhancements such as System Health Monitoring and the Vanquish Solvent Monitor, provide increased productive time for your system. An integrated display and detailed maintenance videos empower your operators to maintain a flow of high-quality results. A full suite of method transfer tools, including tunable gradient delay volume, makes adoption easy.... Read More | The Thermo Scientific™ Vanquish™ Flex Quaternary system provides state-of-the-art quaternary solvent blending. As a member of the Thermo Scientific Vanquish UHPLC product line, the Vanquish Flex Quaternary system delivers new benchmarks in accuracy, precision, and sensitivity with a state-of-the-artThe Thermo Scientific™ Vanquish™ Flex Quaternary system provides state-of-the-art quaternary solvent blending. As a member of the Thermo Scientific Vanquish UHPLC product line, the Vanquish Flex Quaternary system delivers new benchmarks in accuracy, precision, and sensitivity with a state-of-the-art quaternary low-pressure pump.... Read More | Today’s scientists deserve the best analytical tools available; tools that empower to achieve the next scientific breakthrough, measure the previously unmeasurable or deliver outstanding quality results dependably. The Vanquish systems improve performance and repeatability with no trade-offs in Today’s scientists deserve the best analytical tools available; tools that empower to achieve the next scientific breakthrough, measure the previously unmeasurable or deliver outstanding quality results dependably. The Vanquish systems improve performance and repeatability with no trade-offs in quality, robustness, or ease-of-use. Regardless of which Vanquish system is used, chromatographers have all they need to solve their toughest analytical challenges with confidence. This innovative, simple-to-operate, and easy-to-maintain platform delivers confident separations that push chromatographic boundaries.... Read More |