Description | 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 | The Thermo Scientific ™ UltiMate™ 3000 Rapid Separation RS Dual System can, for example, inject the same sample into 2 flow paths and columns. With its two fully integrated, independently operating gradient pumps and smart column switching, it allows fast configuration of online-SPE, parallel or The Thermo Scientific ™ UltiMate™ 3000 Rapid Separation RS Dual System can, for example, inject the same sample into 2 flow paths and columns. With its two fully integrated, independently operating gradient pumps and smart column switching, it allows fast configuration of online-SPE, parallel or tandem (UHP)LC, inverse gradient operation and fast application switching. Rapid Separation Systems fully support longer (up to 250mm) sub-2µm particle column technologies and can, by default, also operated as regular single flowpath system.... Read More | The Thermo Scientific ™ UltiMate™ 3000 Standard Dual System offers numerous options for improving the information yield of all analyses and can still be operated as a regular single-channel system. The dual system makes it easy to configure Online-SPE, Orthogonal, Parallel or Tandem separations, The Thermo Scientific ™ UltiMate™ 3000 Standard Dual System offers numerous options for improving the information yield of all analyses and can still be operated as a regular single-channel system. The dual system makes it easy to configure Online-SPE, Orthogonal, Parallel or Tandem separations, Inverse Gradient operations and Fast Application Switching. With its two fully integrated, independently operating gradient pumps and smart column switching, you can configure your system to maximize throughput, resolution, or sensitivity.... Read More | Use the Thermo Scientific™ Vanquish™ Duo UHPLC Systems to support four workflows (Dual LC, Tandem LC or LC-MS, Transcend Duo LX-2 and Inverse Gradient) by combining two flow paths in one integrated UHPLC solution. These workflows improve your productivity by saving time, reducing cost per sample, Use the Thermo Scientific™ Vanquish™ Duo UHPLC Systems to support four workflows (Dual LC, Tandem LC or LC-MS, Transcend Duo LX-2 and Inverse Gradient) by combining two flow paths in one integrated UHPLC solution. These workflows improve your productivity by saving time, reducing cost per sample, increasing capacity without added bench, and using your resources more efficiently. Vanquish Duo UHPLC Systems expand the benefits of the Vanquish platform without compromising performance, robustness, or ease-of-use.... 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 |