| Description | Experience compelling fraction purity with the Thermo Scientific™ Vanquish™ Fraction Collector (VFC) using innovative valve technology for enhanced resolution, product recovery, and minimized carry-over. The FC can be used with any analytical flow Thermo Scientific™ Vanquish™Experience compelling fraction purity with the Thermo Scientific™ Vanquish™ Fraction Collector (VFC) using innovative valve technology for enhanced resolution, product recovery, and minimized carry-over. The FC can be used with any analytical flow Thermo Scientific™ Vanquish™ HPLC and UHPLC system, any detector including MS, all under Thermo Scientific™ Chromeleon™ Chromatography Data System control.... 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 BioRS System offers true bio-UHPLC capabilities with completely stainless steel-free flow path and newly developed, small particle and high-resolution bio-columns. Near-zero dead volume, Thermo Scientific™ Viper™ connection technology preserves peak sharpness The Thermo Scientific™ UltiMate™ 3000 BioRS System offers true bio-UHPLC capabilities with completely stainless steel-free flow path and newly developed, small particle and high-resolution bio-columns. Near-zero dead volume, Thermo Scientific™ Viper™ connection technology preserves peak sharpness and resolution. The wide flow-pressure range allows the BioRS system to handle complete development cycles—from small scale discovery to semi-preparative target component isolation and purification.... 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 | Develop in vitro diagnostic tests with superior resolution. The Thermo Scientific™ Vanquish™ MD HPLC is the ideal chromatographic separations system for laboratories whose analyte resolution is more critical than sample throughput and batch turnaround time. The small, powerful single channel Develop in vitro diagnostic tests with superior resolution. The Thermo Scientific™ Vanquish™ MD HPLC is the ideal chromatographic separations system for laboratories whose analyte resolution is more critical than sample throughput and batch turnaround time. The small, powerful single channel Vanquish MD HPLC meets analytical needs, as well as space and budget limitations. The Vanquish MD HPLC instrument is intended to chromatographically isolate and separate analytes, such as drugs and endogenous compounds, from a sample solution and introduce these separated drugs or compounds into a detector.... Read More |