FTIR gas analyzer that achieves both extreme sensitivity and high precision.
The Thermo Scientific MAX-iR FTIR gas analyzer is a high-sensitivity FTIR analysis device specifically developed for process gas measurement. It is designed for optimal real-time gas monitoring in the field, suitable for inline processes, gas purity and certification, exhaust gas testing, and environmental air monitoring. The MAX-iR achieves extremely high sensitivity levels from a few ppb to several tens of ppt while retaining the advantages of FTIR by incorporating Thermo Scientific's StarBoost optical enhancement technology. Its unique optical design eliminates the need for liquid nitrogen cooling, significantly reducing installation and operational burdens while enabling high-sensitivity and high-stability measurements. Additionally, it maintains long-term stable measurements with built-in sensors that automatically perform temperature and pressure corrections, along with a robust design that is resistant to vibrations and environmental fluctuations. It is an ideal solution for continuous measurement and quality control on process lines without the need for calibration. Compared to traditional analytical devices like GC and MS, the MAX-iR offers low operational costs, easy maintenance, and high reliability, proposing a new standard for FTIR gas analysis that meets stringent analytical requirements.
Inquire About This Product
Related Videos
basic information
Main Features: - High-sensitivity FTIR system that does not require liquid nitrogen - Custom-designed optimized for process applications - Ensures long-term measurement stability and reliability - Detection limits from a few ppb to ppt levels - Real-time response (1 second to 1 minute) - High-precision measurements with automatic temperature and pressure compensation - Capable of incorporating StarBoost optical enhancement technology Main Benefits: - Ideal for continuous operation and online monitoring in the field - Easy maintenance and low operational costs - High-sensitivity solution that can replace GC and MS - Safe and convenient operation without the need for liquid nitrogen management
Price information
Please contact us.
Delivery Time
Applications/Examples of results
• Analysis of trace impurities in high-purity gases and specialty gases (ppt to ppb level) Example: Measurement of impurities such as CO, CO₂, and CH₄ in H₂ / Analysis of trace components such as H₂O, NOₓ, and SO₂ in CO₂ • Process gas monitoring and inline analysis Real-time measurement of component changes in reaction gases and exhaust gases on production lines in chemicals, materials, and semiconductors • Combustion evaluation and reaction analysis of alternative fuels (ammonia, e-methane, e-methanol, etc.) Precise evaluation of combustion characteristics and emission components through quantitative analysis of by-products and unburned gases in combustion experiments • Performance evaluation of catalysts, adsorbents, and chemical filters High-sensitivity detection of gas composition changes before and after reactions in photocatalysts and various catalytic reactions, quantifying reaction activity and selectivity • Impurity analysis in CO₂ capture and utilization (CCUS) processes Ideal for evaluating gas purity in CO₂ capture and reuse processes • Environmental air, cleanroom monitoring, and emission source testing Monitoring of hazardous air pollutants (HAPs), volatile organic compounds (VOCs), and greenhouse gases in exhaust gases from factories, power plants, and chemical plants at the ppb level
catalog(14)
Download All Catalogs
Company information
Thermo Fisher Scientific K.K., the Japanese subsidiary of Thermo Fisher Scientific Incorporated, is a sales company for comprehensive system analysis instruments, bio-related equipment, and research reagents. In Japan, it has bases in Yokohama, Tokyo, Osaka, Fukuoka, and Nagoya, handling various analytical instruments including mass spectrometers, various bio-related equipment, measuring instruments, medical devices, lab software, and research reagents.
