The new Thermo Scientific Dionex UltiMate 3000 XRS system—an extremely versatile solution for ultra-high resolution and high throughput UHPLC applications with 1250 bar and extreme low gradient delay volume.
Unique detection technologies, exceptional system versatility and superior software solutions deliver confidence, workflow efficiency and outstanding results.
The Thermo Scientific Dionex UltiMate 3000 XRS sets new performance standards for high-speed, high throughput and ultra-high resolution chromatography. The extremely low system gradient delay volume (≤ 250µL) delivers exceptionally fast gradient response for ultra-fast and ultrahigh pressure methods.
The UltiMate™ 3000 XRS system offers choices! Our powerful LC/MS setup using the open access sampler for increased sample capacity boosts productivity and throughput. With the fast injecting, multiple sample-format-supporting well plate sampler as a carryover-optimized alternative, this XRS system offers unmatched workflow flexibility and adjusts easily to new requirements and projects.
More in-depth data with fewer experiments are easily achieved by combining the ultrahigh resolution capabilities of the system with unique detection technologies such as the Thermo Scientific Dionex Corona ultra RS charged aerosol detector or the CouloChem III electrochemical detector. Choose a near universal or very selective detection technique to master your analytical challenges.
This innovative platform warrants the fastest return in your investment and provides you with the competitive advantages you were always looking for.
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Inside the Laboratory: The Gionfriddo Group at the University at Buffalo
March 28th 2024In this edition of “Inside the Laboratory,” Emanuela Gionfriddo, PhD, an associate professor of chemistry at the University at Buffalo, discusses her group’s current research endeavors, including using solid-phase microextraction (SPME) coupled to liquid chromatography (LC) and gas chromatography (GC) to further understand the chemical relationship between environmental exposure and disease and elucidate micropollutants fate in the environment and biological systems.
Transferring Methods to Compact and Portable HPLC
February 14th 2024The current trend in laboratory equipment design is the miniaturization of laboratory instruments. Smaller-scale HPLC instruments offer benefits that cannot be matched by analytical-scale equipment, especially in the areas of portability, reduced fluid volumes, and reduced operating costs. Yet, the miniaturization of laboratory equipment has brought with it a unique set of challenges, including transferring methods to compact LC. Capillary LC expands the use of LC to applications not currently done using conventional LC in a wide array of application areas, including pharmaceutical, food and beverage, petrochemical, environmental, and oil and gas. Greg Ward, Axcend’s CEO wrote, “Customers want an HPLC system with a small footprint, low flow rates and green chemistry.” Join his podcast where he shares method transfer in these application areas.