TY - GEN
T1 - Drugs and precursor sensing by complementing low cost multiple techniques: overview of the European FP7 project CUSTOM
T2 - Optical Materials and Biomaterials in Security and Defence Systems Technology IX
AU - Secchi, Alberto
AU - Fiorello, Anna Maria
AU - Dispenza, Massimiliano
AU - D'Auria, Sabato
AU - Varriale, Antonio
AU - Ulrici, Alessandro
AU - Seeber, Renato
AU - Uotila, Juho
AU - Venditto, Vincenzo
AU - Ciambelli, Paolo
AU - Antolín, Juan Carlos
AU - Colao, Francesco
AU - Kuusela, Tom
AU - Tittonen, Ilkka
AU - Sievilä, Päivi
AU - Maisons, Grégory
PY - 2012/9
Y1 - 2012/9
N2 - A large number of techniques for drug precursors chemical sensing has been developed in the latest decades. These techniques are able to screen and identify specific molecules even at very low concentration in lab environment, nevertheless the objective to build up a system which proves to be easy to use, compact, able to provide screening over a large number of compounds and discriminate them with low false alarm rate (FA) and high probability of detection (POD) is still an open issue. The project CUSTOM, funded by the European Commission within the FP7, deals with stand alone portable sensing apparatus based on multiple techniques, integrated in a complex system with a complimentary approach. The objective of the project is to achieve an optimum trade-off between opposite requirements: compactness, simplicity, low cost, sensitivity, low false alarm rate and selectivity. The final goal is the realization of an optical sensing platform able to detect traces of drug precursors compounds, such as ephedrine, safrole, acetic anhydride and the Benzyl Methyl Ketone (BMK). This is reached by implementing two main sensing techniques: the fluorescence enhanced by the use of specially developed Organic macro-molecules, and a spectroscopic technique in Mid-IR optical range. The fluorescence is highly selective with respect to the target compounds, because it is based on properly engineered fluorescent proteins which are able to bind the target analytes, as it happens in an 'immune-type' reaction. The spectroscopic technique is based on the Photo-Acoustic effect, enhanced by the use of a widely Tunable Quantum Cascade Laser. Finally, the sensing platform is equipped with an air sampling system including a pre-concentrator module based on asorption desorption cycles of a syndiotactic polystyrene polymer.
AB - A large number of techniques for drug precursors chemical sensing has been developed in the latest decades. These techniques are able to screen and identify specific molecules even at very low concentration in lab environment, nevertheless the objective to build up a system which proves to be easy to use, compact, able to provide screening over a large number of compounds and discriminate them with low false alarm rate (FA) and high probability of detection (POD) is still an open issue. The project CUSTOM, funded by the European Commission within the FP7, deals with stand alone portable sensing apparatus based on multiple techniques, integrated in a complex system with a complimentary approach. The objective of the project is to achieve an optimum trade-off between opposite requirements: compactness, simplicity, low cost, sensitivity, low false alarm rate and selectivity. The final goal is the realization of an optical sensing platform able to detect traces of drug precursors compounds, such as ephedrine, safrole, acetic anhydride and the Benzyl Methyl Ketone (BMK). This is reached by implementing two main sensing techniques: the fluorescence enhanced by the use of specially developed Organic macro-molecules, and a spectroscopic technique in Mid-IR optical range. The fluorescence is highly selective with respect to the target compounds, because it is based on properly engineered fluorescent proteins which are able to bind the target analytes, as it happens in an 'immune-type' reaction. The spectroscopic technique is based on the Photo-Acoustic effect, enhanced by the use of a widely Tunable Quantum Cascade Laser. Finally, the sensing platform is equipped with an air sampling system including a pre-concentrator module based on asorption desorption cycles of a syndiotactic polystyrene polymer.
KW - Drugs Precursor
KW - LASER Photo Acoustic Spectroscopy
KW - Biochemical Fluorescence
KW - Preconcentrator
KW - Syndiotactic Polystyrene
KW - Mid Infra Red Quantum Cascade LASER
KW - Cantilever
KW - Drugs Precursor
KW - LASER Photo Acoustic Spectroscopy
KW - Biochemical Fluorescence
KW - Preconcentrator
KW - Syndiotactic Polystyrene
KW - Mid Infra Red Quantum Cascade LASER
KW - Cantilever
UR - http://www.scopus.com/inward/record.url?scp=84875725918&partnerID=8YFLogxK
U2 - 10.1117/12.973756
DO - 10.1117/12.973756
M3 - Conference contribution
AN - SCOPUS:84875725918
SN - 9780819492869
T3 - Proceedings of SPIE - The International Society for Optical Engineering
BT - Drugs and precursor sensing by complementing low cost multiple techniques
PB - SPIE
Y2 - 26 September 2012 through 27 September 2012
ER -