Summary:
An Italian research group is developing an innovative technology capable of identifying chemical substances at trace concentrations (below parts-per-million), even in case of a complex matrix of interfering species. This is achieved by coupling of a microsystem-based gas chromatographic (GC) system with a miniaturized quartz-enhanced photoacoustic spectrometer (QEPAS). The researchers are looking for: financial; license and research cooperation agreements.
Description:
The current technology was developed by the Italian research team in collaboration with an other Italian Institute of Research.
The team proposing the technology has a long expertise in materials and processes for the development of microelectronic
devices and micro-electro-mechanical systems.
The technology consists of a portable chemical analysis system capable of identifying chemical substances at trace concentrations below parts-per-million, 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 separation and photoacoustic infrared analysis technique, in particular but not exclusively in its implementation called quartz-enhanced photoacoustic spectroscopy (QEPAS). The gas-chromatographic module is preferentially a micro-electro-mechanical system based fast gas-chromatographic device, capable of separating complex and low volatility samples within a short time (few minutes) and on a reduced thermal budget. The quartz-enhanced photoacoustic spectroscopy 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 wall coated open tubular gas chromatographic column.
The system was demonstrated in safety and security applications like chemical, biological and radio nuclear first response or forensic analyses. The Italian research group is looking for:
- Financial agreements: a funded research activity aiming at the demonstration of the capabilities of the GC/QEPAS technology for specific market applications in the field of high-end gas sensing.
- License agreements: the patented GC/QEPAS technology can be licensed for the production of portable high-end analytical gas sensing equipment.
- Research cooperation agreements: through cooperative research, the integration between the GC/QEPAS system and other innovative orthogonal detector technologies can be demonstrated, opening new market opportunities.
Type (e.g. company, R&D institution…), field of industry and Role of Partner Sought:
Below the preferential partners sought for each kind of cooperation.
Financial agreement: industrial partners aiming at the demonstration of the capabilities of the GC/QEPAS technology for specific market applications in the field of high-end gas sensing. The industrial partner should provide their sensing needs and applications, and the respective specifications.
License agreement: industrial partners aiming at licensing the patented GC/QEPAS technology for the production of their own portable or miniaturized high-end analytical gas sensing equipment.
Research cooperation agreement: companies and R&D groups working on gas sensing equipment, interested in integration between the GC/QEPAS system and other innovative orthogonal detector for specific high-end gas and vapour sensing applications, opening new market opportunities.
Stage of Development:
Prototype available for demonstration
Comments Regarding Stage of Development:
The technology has a TRL (technology readiness level) equal to 6.
IPR Status:
Patent(s) applied for but not yet granted
External code:
TOIT20211025001
