The LCMS-9050 is a QTOF mass spectrometer designed for the most reliable and easy acquisition of accurate masses in the real laboratory settings. With the proprietary innovation for fast polarity switching, it has the unique capability for high-confidence identification of challenging compounds and high-throughput screening of multiple unknowns.
Precision temperature control system compensates external factors to sustain good mass measurement accuracies without the need for frequent mass calibration. The LCMS-9050 includes an auto-tuning function that uses a standard sample to automatically correct mass accuracy, resolution, sensitivity, and other parameters.
With the capability to achieve low-ppm mass measurement accuracies in short switching intervals, possibilities are open to enhance the workflow with greater confidence and ease. The LCMS-9050 features a proprietary high-precision electrical circuit and the UFstabilization™ algorithm (patented) that make polarity switching both fast and stable.
With DPiMSTM, a small amount of sample is taken using a probe and directly ionized to measure liquids and solids as they are. There is no need to study LC separation conditions or complicated sample preprocessing. Data acquisition can be completed within 1 minute even if both positive and negative ions are detected. By combining with Shimadzu’s QTOF, it becomes possible to quickly and easily identify the components in the sample.
SFC can separate and analyze compounds in a wide range of polarities. Combined with the LCMS-9050’s positive-negative switching mode, compounds with a wide range of physico-chemical properties can be analyzed at once, increasing the comprehensiveness of a single analysis.
By combining the supercriticalfluid system with the high-resolution QTOF, the system is powerful for full screening of multiple components.
Explore software not only facilitates quantitative analysis of a large number of samples, but also comes with features for reliable library searching, elucidation of compound structure and sample composition, and multivalent ion analysis, making full use of MS data with high resolution and mass precision.
