Team that developed and commercialized technology enabling multiplexing of quantitative proteomics experiments recognized by the Human Proteome Organization.
Thermo Fisher Scientific worked closely with national reference labs (NRLs) in the European Union to support the development of the new regulation, known as Commission Regulation (EU) No. 709/2014, which permits use of gas chromatograph-triple stage quadrupole mass spectrometers (GC-MS/MS) for confirmation.
Four early-stage researchers from University of Birmingham to work at Thermo Fisher Scientific's Persistent Organic Pollutants Center of Excellence to measure presence and track sources of brominated flame retardant pollution in the environment.
Thermo Fisher Scientific has developed a liquid chromatography column able to separate different monoclonal antibodies than existing columns, providing useful new capabilities for biopharmaceutical research.
Thermo Fisher Scientific has developed a new, from the ground-up, ultra high performance liquid chromatography system that combines the ruggedness of an integrated instrument with the flexibility of a modular stack.
Thermo Fisher Scientific Center for Multiplexed Proteomics at Harvard Medical School
established to expedite understanding of complex disease mechanisms.
European Union Reference Laboratory and University of Almeria, Spain, work with Thermo Fisher Scientific to develop better methods for measuring very small amounts of pesticide residues in foods.
Christian Doppler Laboratory for Biosimilar Characterization established by Salzburg U., Sandoz and Thermo Fisher to Advance Protein-based pharmaceutical development, production, QA/QC.
Thermo Fisher Scientific enters into a value added reseller agreement with IonSense, so Thermo Fisher can sell the ID-CUBE ion source with Orbitrap-based LC-MS systems.
Thermo Fisher Scientific opens a new facility in the UK to help scientists worldwide apply the latest technology and share information for testing environmental and food samples for pesticide residues.
State-of-art mass spectrometry being combined with advanced research expertise to pursue new methods for detecting cancer biomarkers circulating in blood.
Completely-new mass spectrometry platform employs unique configuration of three different mass analyzers to deliver unprecedented performance and ease-of-use.
New Thermo Scientific Dionex ERS 500 Electrolytically Regenerated Suppressor for ion chromatography increases resolution, is more rugged and is compatible with wider range of detectors than previous generation of suppressors.
Thermo Scientific Prelude SPLC System automates sample preparation and minimizes matrix interference to facilitate LC-MS/MS investigations of complex biological samples.
Thermo Scientific Dionex ICS-5000+ Reagent-Free System designed to increase flow rates and extend HPIC performance to standard, microbore and capillary separations.
Danish lab helps European Union to develop easy methods to identify and measure arsenic and nanoparticle contamination in food. Inorganic arsenic is far more toxic than organic arsenic, and ICP-MS technology lets scientists tell the difference.
Company exhibits advanced instrumentation and reagents for analyzing food, food ingredients and animal feeds for extremely wide range of chemical and biological contamination.
New data-independent acquisition capabiity for quadrupole-Orbitrap LC-MS/MS allows instrument to quantify nearly all detected peptides in a sample in a single run.
Thermo Fisher Scientific and three Princeton University principal investigators collaborate to use high-resolution accurate-mass mass spectrometry to accelerate life science research.
Thermo Fisher Scientific is making available on-line, at no cost, a compendium or food testing methods, case studies, presentations and technical posters offering useful, practical information for scientists who test food for quality, safety or authenticity.
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