| Detector(s) | Diode Array | Inquire | Inquire | Choices include: Vanquish Charged Aerosol Detector, Vanquish Diode Array Detector, Vanquish Fluorescence Detector, Vanquish Multiple Wavelength Detector, Vanquish Variable Wavelength Detector, Refractive Index Detector, Mass Spectrometer. | Diode Array Detector |
| Description | 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 | Improve the analysis of complex samples or simplify the separation of difficult-to-resolve analytes with Thermo Scientific Vanquish Online 2D-LC Systems. Select from one of four configurations focused on online SPE or various heart-cutting, two-dimensional liquid chromatography (LC-LC) workflows. Improve the analysis of complex samples or simplify the separation of difficult-to-resolve analytes with Thermo Scientific Vanquish Online 2D-LC Systems. Select from one of four configurations focused on online SPE or various heart-cutting, two-dimensional liquid chromatography (LC-LC) workflows. These robust, easy-to-use modular instruments offer versatile configurations to improve your confidence in peak identity with great performance and maximum application flexibility.... Read More | Experience the ease of using the Thermo Scientific™ Vanquish™ Refractive Index Detector (RID) for routine isocratic analysis of substances that lack UV chromophores, such as carbohydrates, lipids, and polymers. This detector fully integrates with Thermo Scientific™ Vanquish™ analytical LC systems, Experience the ease of using the Thermo Scientific™ Vanquish™ Refractive Index Detector (RID) for routine isocratic analysis of substances that lack UV chromophores, such as carbohydrates, lipids, and polymers. This detector fully integrates with Thermo Scientific™ Vanquish™ analytical LC systems, saves bench space, and simplifies overall instrument handling. The Vanquish RID provides excellent sensitivity, resolution, and sample throughput by supporting fast separations with high data collection rates. It features fast baseline stabilization and excellent reproducibility.... Read More | Eliminate disruptions to your routine analytical work with the Thermo Scientific Vanquish Core HPLC systems. No matter which systems you currently use, switching to Vanquish Core is simple and seamless. Empower your operators to deliver more productivity with less work. | Use the Thermo Scientific™ Vanquish™ High-throughput LC Systems to improve productivity and save bench space. Vanquish Tandem LC systems increase sample throughput and MS utilization for LC-MS applications by eliminating column washing and equilibration steps from method cycle time. Vanquish Duo Use the Thermo Scientific™ Vanquish™ High-throughput LC Systems to improve productivity and save bench space. Vanquish Tandem LC systems increase sample throughput and MS utilization for LC-MS applications by eliminating column washing and equilibration steps from method cycle time. Vanquish Duo UHPLC systems combine two completely independent LC flow paths to double sample throughput or run independent analyses in parallel. In addition, Vanquish High-throughput LC Systems expand the benefits of the Vanquish platform without compromising performance, robustness, or ease-of-use.... Read More |