Agilent Mass Spectrometry: Clearly Better performance and productivity for all your applications
Agilent Product Profile
Whether you’re screening for multiple pesticide residues, discovering low abundance biomarkers, quantifying trace drug metabolites, or monitoring elemental contaminants in soil and water, Agilent mass spectrometry can improve the quality—and the confidence—of your results.
Advanced separation capabilities, exclusive Capillary Flow Technology, powerful automation, and easy-to-use software let you get more done in less time, at the lowest possible cost per sample. A full range of GC/MS systems—including single quadrupole, triple quadrupole, and ion trap—let you exactly meet the needs of your application, and your budget.
For non-targeted or unknown contaminants, Agilent Accurate-Mass TOF and Q-TOF MS systems combine best-in-class performance with legendary Agilent reliability. And for highly selective, sensitive detection and quantification of targeted compounds, the new Agilent 6490 Triple Quadrupole LC/MS, with Agilent iFunnel technology, delivers breakthrough zeptomole sensitivity, the broadest linear dynamic range—all in a compact desktop footprint.
Agilent’s industry-leading ICP-MS gives you the flexibility to analyze even the toughest, dirtiest samples with superior sensitivity. Offering unmatched matrix tolerance and ability to remove interferences, you can rapidly screen, confirm, and quantify target compounds in a single injection—without running external standards.
Explore Agilent’s Clearly Better mass spectrometry solutions today.
Analyzing Effects of Adverse Cardiovascular Events on Chronic Kidney Disease with HPLC
March 13th 2025Researchers investigated the potential association between plasma apolipoprotein M (APOM) levels and the risk of adverse cardiovascular outcomes in individuals with chronic kidney disease (CKD). Plasma sphingosine-1-phosphate (S1P) levels were measured by high performance liquid chromatography (HPLC).
The Next Frontier for Mass Spectrometry: Maximizing Ion Utilization
January 20th 2025In this podcast, Daniel DeBord, CTO of MOBILion Systems, describes a new high resolution mass spectrometry approach that promises to increase speed and sensitivity in omics applications. MOBILion recently introduced the PAMAF mode of operation, which stands for parallel accumulation with mobility aligned fragmentation. It substantially increases the fraction of ions used for mass spectrometry analysis by replacing the functionality of the quadrupole with high resolution ion mobility. Listen to learn more about this exciting new development.
Inside the Laboratory: Mei Sun at the University of North Carolina, Charlotte
March 12th 2025As part of our series on how North Carolina researchers are helping to combat PFAS in the environment, we asked Mei Sun of the University of North Carolina, Charlotte, about her work with the North Carolina PFAS Testing Network, what strategies show the most promise for large-scale environmental cleanup, and how regulations on PFAS are influencing research priorities and mitigation technologies.
