The pinnacle of innovation in Emission Spectrometry with Microwave Inductively Coupled Atmospheric Plasma Optical. This instrument boasts unparalleled features designed to revolutionize elemental analysis in laboratories worldwide. With a unique design and outstanding performance, it sets new standards in efficiency, cost-effectiveness, and environmental sustainability.
Developed by Radom Corporation, the MICAP-OES 1000 represents a new generation of atomic emission spectrometry. It combines high analytical performance with exceptionally low maintenance and operational costs, making it the ideal alternative to traditional ICP-OES systems.
MICAP-OES 1000 represents a groundbreaking advancement in plasma spectroscopy, utilizing nitrogen-based plasma technology to replace traditional argon-based methods, like ICP OES. Powered by the highly efficient Cerawave technology, this instrument eliminates the need for water-cooled coils, reducing maintenance requirements and operational costs. Its high-resolution echelle spectrometer enables simultaneous measurement of the entire wavelength range, providing unparalleled accuracy and speed in elemental analysis. Additionally, it offers superior sample matrix tolerance, ensuring stable performance even in challenging sample conditions.
Microwave plasma powered by nitrogen
Generates a robust plasma using nitrogen from ambient air—no argon or flammable gases required.
Low maintenance, high uptime
No water-cooled coils or complex gas handling systems means fewer breakdowns and reduced operating costs.
Compact and mobile
Designed for modern labs and mobile setups alike, with simple 208–240V power requirements and air cooling.
Fast ROI
Pays for itself in under three years, saving over $200,000 across its product lifetime.
Eco-friendly and future-proof
Low carbon footprint and reduced reliance on rare gases support sustainable lab practices.
The versatility makes it ideal for a wide range of applications, the MICAP is ideal for a wide range of industries, including:
Its ability to perform rapid and simultaneous elemental measurements, coupled with its minimal sample preparation requirements, streamlines analytical processes and enhances productivity. Furthermore, its compatibility with local nitrogen generation and its low carbon footprint makes MICAP a sustainable choice for laboratories seeking to minimize their environmental impact while maximizing efficiency.