Academics

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Solutions for the Academics

Current, traditional laboratory techniques used to analyze chemical samples are atomic absorption and inductively coupled argon plasma optical emissions spectroscopy (ICP-OES). The former uses combustible gases and has limited range capability while the latter uses argon gas and typically requires a chiller for cooling. Both techniques are not conducive to remote mobile, local, or remote laboratory testing labs.
Radom Corporation developed the solution for instrumentation for labs with Microwave Inductively Coupled Atmospheric Plasma. This innovated nitrogen-based plasma atomic spectroscopy instrument replaces the traditional argon generated plasma technology.
MICAP+RIS Product Image

Features & Benefits

What can our instruments do for you?

  • Use robust nitrogen plasma with superior matrix tolerance.
  • Simultaneous measurement for fast analysis times.
  • Smallest footprint and light-weight design.
  • Reduced running cost/analysis.
  • Easy-to-use Windows-based graphical user interface of RIS software package.
  • The ability to display, store and recall spectra for every sample analyzed data display and reprocessing, without the need to rerun samples (original data is unchanged).
  • Automated robust wavelength accuracy algorithm to ensure wavelength stability for extended sample runs.
The world's smallest ICP
Smarter. Faster. More efficient.
Radom’s proprietary Cerawave™ technology sets a new standard for productivity. Cerawave, an advanced ceramic ring, replaces water cooled coils and traditional RF generators. MICAP-OES 1000 is a powerful analytical instrument with a simple design eliminating the need for a chiller and permanent installation location.
Cerawave Ring Image

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