Whether being used in complex metabolomics studies, pesticide screening in challenging matrices, or compound identification in herbal extracts, quadrupole time-of-flight GC/MS provides the ultimate in performance. Designed for real-world analysis and built for laboratory robustness, this accurate mass screening GC/MS delivers what your organization needs – consistently confident results, allowing you to see the whole picture.
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● Identifies compounds through high-resolution, accurate-mass data and sensitive detection.
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● Quantifies analytes accurately across a wide dynamic range, without compromising spectral quality.
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● Simplifies ambiguous data with low-energy EI for softer ionization and molecular ion enhancement (application specific).
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● Supports complimentary data types with available chemical ionization for both positive and negative mode analyses
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● Increases confidence in compound detection with highly efficient ionization and MassHunter’s SureMass algorithm for accurate and sensitive extraction of library-quality compound spectra for high match scores.
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● Enhances compound identification with spectral fidelity for trustworthy library matching and isotopic fidelity for generating verifiable chemical formulas.
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● Detects trace-level target compounds in the presence of more abundant matrix compounds with a wide in-spectrum dynamic range.
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● Elucidates chemical structures with MS/MS capabilities and Molecular Structure Correlator software that reveals greater detail.
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● Ensures excellent data quality even for narrow chromatographic peaks in high-throughput workflows with data acquisition rates of up to 50 spectra per second.
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● Performs screening, profiling, discovery workflows, and more, using comprehensive MassHunter software.
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● Drive productivity with the NEW 8890 GC’s built-in intelligence for diagnostics and monitoring, and simplified access to powerful operations through the integrated touchscreen and browser interface
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● Supports both flow and thermally-modulated comprehensive GCxGC for flexibility in enhanced chromatographic resolution for selective compound detection.