Contact person
Vincenzo Spagnolo - Professor
Competencies and research activities
PolySense is a joint-research lab in collaboration between the Technical University of Bari and Thorlabs GMBH.
The activities of the joint research lab will be focus on the research and development of innovative optical gas sensing systems.
The detection and measurement of trace gas concentrations is of importance in a variety of applications, including environmental monitoring of greenhouse gases, disease diagnosis, industrial process control analysis, and detection of toxic and flammable gases. The PolySense Lab has extensive experience with the quartz-enhanced photoacoustic spectroscopy (QEPAS) technique, which uses a quartz tuning fork (QTF) as a detector for photo-acoustic signals. Using QEPAS, extremely small concentrations of potentially harmful gases (a few tens of parts per trillion) can be measured.
Leveraging this background, the PolySense Lab will focus its activity on the further development and implementation of novel gas sensing techniques and the realization of highly sensitive QEPAS trace-gas sensors.
Starting from the QEPAS technique and employing Thorlabs' engineering resources and manufacturing expertise, the PolySense lab will endeavor to design and produce QTF designs, optimized for different operation conditions. These QTFs will be incorporated into jointly-designed acoustic detection modules to produce sensor prototypes for highly sensitive real-time measurements. The end goal is to provide portable solutions for in situ and real-time gas detection, leading to advancements in breath analysis, environmental monitoring, leaks detection, hydrocarbon gas sensing, and monitoring of toxic gases and explosive precursors. PolySense Lab will also perform sensing on demand and provide third-party consulting.
To support the newly formed strategic partnership, Thorlabs will provide the necessary instrumentation as well as technical staff and funding for both the research and personnel, while the university will provide the laboratory and office space as well as conduct the research.
The activities of the joint research lab will be focus on the research and development of innovative optical gas sensing systems.
The detection and measurement of trace gas concentrations is of importance in a variety of applications, including environmental monitoring of greenhouse gases, disease diagnosis, industrial process control analysis, and detection of toxic and flammable gases. The PolySense Lab has extensive experience with the quartz-enhanced photoacoustic spectroscopy (QEPAS) technique, which uses a quartz tuning fork (QTF) as a detector for photo-acoustic signals. Using QEPAS, extremely small concentrations of potentially harmful gases (a few tens of parts per trillion) can be measured.
Leveraging this background, the PolySense Lab will focus its activity on the further development and implementation of novel gas sensing techniques and the realization of highly sensitive QEPAS trace-gas sensors.
Starting from the QEPAS technique and employing Thorlabs' engineering resources and manufacturing expertise, the PolySense lab will endeavor to design and produce QTF designs, optimized for different operation conditions. These QTFs will be incorporated into jointly-designed acoustic detection modules to produce sensor prototypes for highly sensitive real-time measurements. The end goal is to provide portable solutions for in situ and real-time gas detection, leading to advancements in breath analysis, environmental monitoring, leaks detection, hydrocarbon gas sensing, and monitoring of toxic gases and explosive precursors. PolySense Lab will also perform sensing on demand and provide third-party consulting.
To support the newly formed strategic partnership, Thorlabs will provide the necessary instrumentation as well as technical staff and funding for both the research and personnel, while the university will provide the laboratory and office space as well as conduct the research.
Collaborations with companies and institutions
CNR-IFN - Istituto Nazionale di Fotonica e Nanotecnologia
Rice University -Houston (USA)
Shanxi University (China)
OKSI System Inc. (USA)
Hamamatsu Photonics (Japan)
CNR-INO Istituto Nazionale di Ottica
Pendar Technologies (USA)
Statek Co. (USA)
MASMEC Spa
Centro Ricerche Fiat
University du Cote D’Opal (France)
Cambridge University (UK)
ETH-Zurich (Swizerland)
Rutger University (USA)
Rice University -Houston (USA)
Shanxi University (China)
OKSI System Inc. (USA)
Hamamatsu Photonics (Japan)
CNR-INO Istituto Nazionale di Ottica
Pendar Technologies (USA)
Statek Co. (USA)
MASMEC Spa
Centro Ricerche Fiat
University du Cote D’Opal (France)
Cambridge University (UK)
ETH-Zurich (Swizerland)
Rutger University (USA)