Enter the fascinating world of infrared (FT-IR) spectroscopy – one of the most powerful analytical methods for accurate identification and quantification of gases. Whether it’s air quality monitoring, emissions testing, contaminant detection, or specialty gas purity control, FTIR provides unmatched sensitivity, speed, and accuracy. You can request the webinar here, it has no specific date.

What awaits you?

This webinar will guide you through the principles of FT-IR spectroscopy and show you how this method enables detailed analysis of gas composition – in real time and with high accuracy. We will focus on how FT-IR can be used to monitor emissions, air pollution, or the composition of process and specialty gases. Next, we will look at optically enhanced FT-IR (OE-FTIR) spectrometry, which pushes detection capabilities even further and enables extremely fast and sensitive measurements.

Main topics:

• How does infrared spectroscopy work and why is it ideal for gas analysis?
• Key components of an FT-IR spectrometer and their role in gas detection
• How does FT-IR provide more accurate results than other infrared techniques?
• How is the FT-IR signal processed for maximum measurement accuracy?
• How does the software interpret the FT-IR spectrum when analyzing the composition of gas mixtures?
• What is OE-FTIR and how does it significantly improve gas detection capabilities?

Who is the webinar intended for?

If you are in the field of emissions testing, air quality monitoring, specialty gas control, or any other gas analysis related application, this webinar is for you! You will find useful information here, if you are:

• Analysts and chemists specializing in gases
• Environmental engineers monitoring air quality
• Health and Safety Managers (HSE)
• Process managers in industrial production
• Emissions testing and pollution monitoring specialists
• Researchers using advanced techniques for gas analysis
• Experts in monitoring industrial processes and specialty gases
• Technologists working with high-purity gases

Join us and get the latest insights on FT-IR spectroscopy for gas analysis!