Metal-containing aerosols are widespread in the Earth's atmosphere, originating from both natural and human sources. These ...
The Thermo Scientific™ iCAP™ TQ ICP-MS is a brand-new triple quadrupole (TQ) ICP-MS capable of detection and quantification of most elements, from ppt to ppm levels. As in ICP-OES, an argon plasma ...
Metal-containing aerosols are present throughout the Earth’s atmosphere, originating from both natural and human-made sources ...
ICP-MS is an analytical technique that enables the determination of trace elements. It is known for its wide elemental coverage, low detection limits, fast analysis times, wide analytical working ...
That’s the thinking behind the NexION® 5000, the industry's first multi-quadrupole ICP-MS instrument. This cutting-edge system delivers performance beyond high-resolution ICP-MS and traditional triple ...
Innovations in ICP-MS instrumentation enhance robustness, performance, and ease of use, but achieving accurate results and addressing sample failures requires more than just technology. Reducing ...
For applications which require detection of very low concentrations (i.e. below the detection limits of the ICP-OES) ICP-MS is used. The ICP-MS detection limits for most elements is as low as 1 part ...
Our main analytical tool is a Thermo Finnigan Element2 magnetic sector inductively-coupled plasma mass spectrometer (ICP-MS). We welcome inquiries about other sample types. If you can dissolve it, we ...
Analytik Jena has introduced the ICP-MS solutions of the PlasmaQuant MS series that benefit both routine and research laboratories that have the highest efficiency and detection standards. The ...
The NexION 1100 is a single-analyzer ICP-MS with three quad-design and a single gas channel. It boasts a unique mix of exclusive technology. Proprietary three-quad design offers three phases of mass ...
The 193nm Teledyne CETAC Analyte Excite Excimer Laser Ablation System is capable of introducing almost any type of solid sample into the iCAP™ TQ ICP-MS. It is especially applicable to in-situ ...