Fusion LC Method Development™
S-MatrixChromatography-centric QbD Software for HPLC, UHPLC, & SFC Method Development.
Separations is a fundamental scientific discipline focused on the isolation and purification of components from mixtures. Through techniques such as chromatography, distillation, and filtration, separations scientists separate substances based on their physical or chemical properties. This field plays a crucial role in various industries, including pharmaceuticals, food and beverage testing, environmental science, materials research, and more. Explore how separations techniques enable precise analysis, quality control, and the development of innovative products.
Chromatography-centric QbD Software for HPLC, UHPLC, & SFC Method Development.
The advanced, built-in robotics of the Thermo Scientific™ TriPlus™ RSH™ Autosampler deliver exceptional precision, unprecedented sample handling flexibility, and reliable unattended operation.
AdvanceBio Amino Acid Analysis (AAA) includes proven reagents for amino acid derivatization, a ready-to-use amino acid standards kit, columns based on innovative Poroshell technology, and expert support.
SFC-PICLab Hybrid 10-100 and 10-150 and SFC-PICLab Hybrid 20 The Hybrid SFC concept, unique to PIC Solution, incorporates both a 10 ml/min analytical and a 100 or a 150 ml/min preparative SFC in a single unit. Origonally conceived as a system for users with resources or space for a single system but who wish to carry out method development, preparative separations and fraction analysis, the system has found a place in large…
An automated polarimeter ideal for food, beverage, pharmaceutical and research labs
The Polyarc system is a breakthrough innovation that combines catalysis with chemical analysis to revolutionize 60 year-old GC/FID technology. Give your FID a universal and uniform carbon response with a 7-order of magnitude linear range from
The 1260 Infinity II SFC/UHPLC Hybrid System allows you to perform supercritical fluid chromatography (SFC) and ultrahigh-performance liquid chromatography (UHPLC) on a single instrument. The system supports pressures up to 600 bar in SFC mode and up to 800 bar in UHPLC mode. Switching between the two modes is easy and can be fully automated.
For scientists running complex LCMS assays in low flow chromatography, the 50 cm µPAC™ GEN2 nanoLC column provides exceptional reproducible results over time and across laboratories through its µPAC™ Column technology and further enhances chromatographic separation with its second generation pillars design.
Purpose-built to target quality and efficiency, the BioPhase 8800 system enables parallel sample throughput and analysis for capillary electrophoresis characterization.