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Inductively coupled plasma mass spectrometry (ICP-MS) is an elemental analysis technology capable of detecting most of the periodic table of elements at milligram to nanogram levels per liter. It is used in a variety of industries including, but not limited to, environmental monitoring, geochemical...

Identify and quantify unknown compounds in complex matrices with our precision LC-MS systems., Simplify your MS analyses with our integrated software platforms and our extensive, searchable libraries., Explore cell biology with Thermo Scientific mass spectrometers, leaders in proteomic research.

Empowering you with technology to achieve more today and be ready to master future challenges, triple quadrupole ICP-MS helps ensure that your laboratory can meet evolving legislation requirements, enables you to explore developing markets, and pushes the boundaries of your research.

Simplify your MS and MS/MS analyses with our mass spectrometry software platforms, which feature intuitive and user-friendly interfaces that easily acquire, analyze, manage, and report data generated by LC-MS, GC-MS, IRMS, and ICP-MS systems.

High Resolution Inductively Coupled Plasma Mass Spectrometry is a technique used for elemental analysis of solutions and solid samples via laser ablation. The superior ionization of inductively coupled plasma source is combined with a magnetic sector multicollector mass spectrometer resulting in...

A major challenge of clinical & translational research is to discover potential, clinically relevant biomarkers in a reliable way. Then, moving beyond positive identification discovery to verification and validation in the shortest possible time.

Mass spectrometry has four essential functions, which are ionization, separation (filtering), detection and analysis. These functions are coordinated by the following components: the ion source, mass analyzer, detector and software.

Mass spectrometry (MS) involves four basic steps: ionization, ion separation by a mass analyzer, detection, and data processing and analysis. In modern mass spectrometers, these steps are managed by computer software.

Isotope ratio mass spectrometry (IRMS) is the study of natural and synthetic samples based on their isotope ratios. The isotope ratio of a material will vary depending on its source and origin as well as on processes that may occur during the lifetime of that material.

Noble gas mass spectrometry studies isotopes of noble gases helium (He), neon (Ne), argon (Ar), krypton (Kr), and xenon (Xe). These gases are found in very small quantities in a variety of environmental samples and the study of the isotopes of these noble gases provides powerful insights in the...

Clinical research is essential for discovering answers to real-world health questions. For this, you need repeatable results, streamlined workflows, and innovative techniques. Explore options for applications, including biomarker research, inherited disorders, cancer research, and the study of...

Thermal ionization mass spectrometry (TIMS) is designed to obtain high precision isotopic information. Ions are created by passing a current through a thin metal ribbon or ribbons under vacuum. The ions generated are accelerated under vacuum to a magnetic sector where the ions are separated...

Achieve your scientific and business goals for clinical research and toxicology with our extensive, robust, and reliable portfolio of chromatography and mass spectrometry products. From biomarker assays using immunoaffinity enrichment to GC-MS for volatile analysis, and LC-MS for non-volatile...

Glow discharge mass spectrometers enable you to define new standards in the direct analysis of solid samples, providing you with the solution of choice for high throughput determination of trace elements in high purity conductive and semi-conductive materials.

Our gas isotope ratio mass spectrometers are the instruments of choice for measuring stable isotope signatures with extreme precision and sensitivity, enabling the user to gain unique insights into the history and origin of compounds found in a variety of samples.