GC/QEPAS: gas chromatography coupled to photoacoustic spectroscopy

# Record card
62
Thematic areas
Tourism, social sciences and cultural heritage / Archeometry
Tourism, social sciences and cultural heritage / Safety and security
ICT & Electronics / Sensor/multi-sensor technology, instrumentation
ICT & Electronics / Optics & Acoustic
ICT & Electronics / Smart cities and Communities
ICT & Electronics / Robotics and control systems
ICT & Electronics / Optoacustic sensors, Optoelectronic devices
Additive and advanced industrial manufacturing / Process control and logistic
Chemicals & Physics / Separation technologies
Additive and advanced industrial manufacturing / Factory of the Future
Chemicals & Physics / Atomic and molecular spectroscopy
Health & Biotech / Smart Devices for Health and Wellness
Health & Biotech / Diagnostic, Medical imaging & advanced bioimaging
Energy and environmental sustainability / Safety and security
Health & Biotech / Medical Device
Energy and environmental sustainability / Natural disasters
Energy and environmental sustainability / Pollution treatment (air, soil, water)
Energy and environmental sustainability / Sensory
Measurement tools and Standards
ICT & Electronics / Electronics and microelectronics
Description

We propose a portable chemical analysis system capable of identifying chemical substances at trace concentrations (sub-ppm), even in case of a complex matrix of interfering species. This is achieved by means of the bi-dimensional selectivity obtained through the combination of gas-chromatographic (GC) separation and photoacoustic (PA) infrared analysis, in particular quartz-enhanced PA spectroscopy (QEPAS).  The GC module is preferentially a MEMS-based FAST-GC device, capable of separating complex and low volatility samples within a short time (few minutes) and on a reduced thermal budget. The QEPAS module is preferentially built around an analysis cell with a microscopic internal volume, capable of processing, with high sensitivity and excellent selectivity very small vapor flows, as typically eluting from a FAST-GC column.

Business fields
Industry
Type of innovation
Product innovation
Description of innovative features / Competitive advantages

The GC/QEPAS system is a high-end vapor analysis system, relying on the bi-dimensional selectivity of gas-chromatographic separation coupled to a spectroscopic detector. While such combination is already frequently used in laboratory equipment, most notably as GC/MS (gas-chromatography and mass spectroscopy), those systems are complex, expensive and not suitable for portable implementations or in-field analyses, mainly due to the fragility of the ultra-high vacuum pumps necessary for the MS system. The combination of a MEMS-based FAST-GC system with a specifically designed infrared absorption spectroscopy system enables sensing performances similar to GC/MS systems, but in a miniaturized, portable and robust systems. This technology is suitable to rapidly detect in-field specific substances at trace concentrations, even inside a complex interfering sample matrix.

Reference market
Impacts on existing markets
Development stage
Prototype
TRL
6
Advantages
New product/process/service/technology
Cost reduction
Patented technology
Yes
Country/ies

Italy, PCT

Technology validation/demonstration
External validation
Market positioning
Italian
European
International
Partner required
Enteprise
Seed capital

Information
For more information and/or to be put in contact with the Research Team, please contact the Project Manager:

Barbara Angelini - Project Manager
CNR - Unità Valorizzazione della Ricerca
Phone number 06.49932415
E-mail barbara.angelini@cnr.it