Joint-Research LAb between THORLABS and Technical University of Bari devoted to gas sensing techniques

Our Research activities

Highly sensitive trace-gas sensors, portable, compact, robust for in-situ & real time detection

Compact acoustic detection modules

Realization of compact acoustic detection module including a custom-made quartz tuning fork and micro-resonator system, optical access via two windows and gas in and out connections.

Custom-made tuning forks and micro-resonators

Custom-made quartz tuning fork properly designed and realized to offer high performance for QEPAS sensors, in terms of quality factor and electrical charges collection efficiency.

Fiber-coupled mid-IR QEPAS Sensors

Fiber-optic components are key enabling technologies to improve the robustness and effectiveness of QEPAS sensors in terms of flexible beam guidance and compactness.

Cavity-Enhanced QEPAS Sensors

Ultra-sensitive and selective QEPAS sensors combined with high-finesse optical cavities can increase the detection sensitivity up to two orders of magnitude.

THz QEPAS SENSORS

High sensitivity THz molecular spectroscopy is crucial for the study of chemical processes related to ozone depletion and global warming, as well as direct identification of explosives and drugs.

Go to Quartz tuning forks photodetectors

Quartz tuning forks photodetectors

Quartz tuning forks (QTF) as a narrow-bandwidth (∼1 Hz), fast-response (tens of kHz), broadband, high-responsivity infrared photodetectors, suitable for tunable laser-based absorption spectroscopy. The photodetection process is based on light impacting on the QTF and creating a local temperature increase that generates a strain field. This light-induced, thermoelastic conversion produces an electrical signal proportional to the absorbed light intensity due to quartz piezoelectricity.

Go to EU Project OPTAPHI 2020-2024

EU Project OPTAPHI 2020-2024

The OPTAPHI Postgraduate Training Network aims to train doctoral students in the complementary fields of advanced spectroscopy and integrated optics. Specifically, the focus is on the methods of photo-acoustic and photo-thermal spectroscopy, and their integration with compact semiconductor lasers.

Go to EU PROJECT PASSEPARTOUT 2021-2024

EU PROJECT PASSEPARTOUT 2021-2024

PASSEPARTOUT will advance the development and deployment of miniature, optical based sensors based on Quartz Enhanced Photo-acoustic Spectroscopy and Photo-Thermal Interferometry. PASSPARTOUT will realize the first 3D mobile optical gas analyser network capable of operating in an urban area exploting on drone-mounted, vehicle-mounted and stationary sensors. (NOx, SO2, NH3, CH4, CO, CO2) and black carbon within urban areas, around landfills and seaports.

Go to PNNR Project BRIEF 2022-2026

PNNR Project BRIEF 2022-2026

In the framework of the PNRR Infrastructure Project “Biorobotics Research and Innovation Engineering Facilities” – BRIEF, the BBC – Breath Biomarkers Chemical identification Laboratory (including a mass spectrometer + Gas chromatography system) and the BIOS2 – Biomarkers Infrared Spectroscopy and Sensing Laboratory will be realized and exploited for Breath Sensing of several pathologies, including Colon and Lung Cancer.

Go to NRRP Project D3-4-Health 2022-2026

NRRP Project D3-4-Health 2022-2026

In the framework of the National Plan for NRRP Complementary Investments D3-4-Health – ” Digital Driven Diagnostics, prognostics and therapeutics for sustainable Health care” project, we will realise optical breath sensing system for pathologies like Metastatic colon cancer, Liver and bile duct cancer and Diabetes type I.

Go to PNRR Project NEST 2022-2025

PNRR Project NEST 2022-2025

Network 4 Energy Suistainable Transition (NEST) project is framed in the PE program “Green Energies for the Future” aims to develop technologies for the conversion and use of renewable sources that should be sustainable and resilient for the energy production and distribution. The activity of Polysense will regards the realization of innovative sensors for H2 and related contaminants detection.

Go to PNRR Project NQSTI 2022-2025

PNRR Project NQSTI 2022-2025

The National Quantum Science and Technology Institute project is carrying out competitive and innovative research in the field of Quantum Science and Technology (QST). NQSTI addresses the entire innovation chain, from the strengthening and coordination of the low-TRL research, to its translation into prototypes, favoring interfacing with industrial needs thanks to strong outreach and continued-education programs. The activity of Polysense will regards the development of spectroscopy-based sensing systems for biomedical and environmental inspection.

EU PROJECT EVOQUE 2024-2027

EVOQUE’s objective is to develop a novel photonic-based sensory system (GC-QEPAS) for at-line, on-line & in-field Agriculture, Food, Environmental Pollution monitoring and Industrial Emissions monitoring. The system will be based on the combination of Gas Chromatography with QEPAS (Quartz-enhanced photo-acoustic spectroscopy), long wavelength Quantum Cascade Lasers and Mid-Infrared Metasurfaces.

Quartz-Enhanced Photoacoustic Gas Sensors (QEPAS) are the most robust, compact and sensitive among the Optical Gas Sensors

SENSING-ON-DEMAND

Environmental Monitoring

Trace gas sensors are the heart of any monitoring system in industrial and urban areas. Real-time and in-situ QEPAS-based monitoring systems are crucial to ensure an environmentally sustainable territorial development.

Breath Analysis

Exhaled breath biomarkers have particular clinical appeal offering non-invasive medical diagnostics. Dedicated QEPAS sensors can be used as repeatable, continuous and real-time breath analysis tool.

Leaks detection

Gas Leak detection is a critical problem for several applications requiring hermetically closed areas. QEPAS-based leak sensors are several orders of magnitude more sensitive than a bubble test or helium sniffer.

Hydrocarbon and H2 monitoring

Portable Quartz enhanced photoacoustic sensors (QEPAS) system are capable to detect in situ methane, ethane, propane and butane in gas phase, with detection limits in the few part-per-million (ppm) concentration range and hydrogen in the hundreads of ppm range.

Monitoring of hotspot areas

Certain chemicals can be used in the illicit manufacture of explosives or to cause harm. Quartz enhanced photoacoustic sensors (QEPAS) system are capable to detect toxic gases and explosive precursors down to few part-per-million concentration range.

Go to Polysense Innovations srl

Polysense Innovations srl

PolySenSe Innovations is a spin-off company of the Polytechnic of Bari, devoted to the development of optical-based sensors, technical training for companies, and to find solution to strategic problems.

Our Team

Vincenzo Luigi Spagnolo

Director – Vice Rector – SPIE Fellow member – OSA Senior Member – Co-founder of PolySenSe Innovations s.r.l.

Pietro Patimisco

Associate Professor – Technical committee Head – Co-founder of PolySenSe Innovations s.r.l

Angelo Sampaolo

Assistant Professor – Technical committee Member – Co-founder and CEO of PolySenSe Innovations s.r.l.

Verena Mackowiak

Head of Spectroscopy and Tuneable Laser Thorlabs GmbH

Hubert Rossmadl

Research Development Project Manager Thorlabs GmbH

Christian Brehm

Development engineer Thorlabs GmbH

Arianna Elefante

CNR Researcher

Luigi Lombardi

Polysense innovations Researcher

Cristoforo Marzocca

Full Professor – CEO Microlaben s.r.l.

LEI DONG

Full Professor Shanxi University

Hongpeng Wu

Full Professor Shanxi University

Huadan Zheng

Associate Professor Jinan University

Mariagrazia Olivieri

PhD Student

Raffaele De Palo

PhD Student

Francesco Paciolla

PhD Student

Aldo Cantatore

PhD Student

Luigi Melchiorre

PhD Student

Sun Bo

PhD Student Shanxi University

Nicoletta Ardito

PhD Student

Felice Sfregola

PhD Student

Choafan Feng

PhD Student Shanxi University

Valeria Villada

Technician

Ivan Preziosa

Technician

Contact us polysense@poliba.it

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