This project aims at investigating on a new generation of micro and nanosensors gas using the advantages of the main key enabling technologies (KETs) : micro -and nanoelectronics, nanotechnology, advanced materials and photonics, to exceed the performance of existing devices. This project applies to the various stages of manufacture of the sensors and of the creation of sensor networks: synthesis and nanostructuring of materials, manufacturing of enabling substrates, integration of materials and substrates, test of devices, development of an electronic control and data processing, and finally integration into a sensor network .
La imagen es un esquema de un sensor SAW de tipo Love.
Publicaciones
Graphene oxide as sensitive layer in Love-wave surface acoustic wave sensors for the detection of chemical warfare agent simulantsI. Sayago, D. Matatagui, M.J. Fernández, J.L. Fontecha, I. Jurewicz, R.Garriga and E. MuñozTalanta, Volume 148, 1 February 2016, Pages 393–400http://dx.doi.org/10.1016/j.talanta.2015.10.069 | Grupo de I+D en Sensores SENSAVAN NOySI |
On-line classification of pollutants in water using wireless portable electronic nosesHerrero JL, Lozano J, Santos JP, Suárez JIChemosphere, 152, 2016, 107-116https://doi.org/10.1016/j.chemosphere.2016.02.106 | Grupo de I+D en Sensores NOySI |
Detection of pollutants in water using a wireless network of electronic nosesJ Lozano, JP Santos, JI Suárez, JL Herrero, M AleixandreChemical Engineering Transactions, vol. 54, 2016, pp. 157-162http://doi.org/10.3303/CET1654027 | Grupo de I+D en Sensores NOySI |
Tin Dioxide-Graphene Based Chemi-Device for NO2 Detection in the Sub ppm Range J. P. Santos , T. Polichetti, M. Aleixandre, E. Hontañón, I. Sayago, B. Alfano, M. L. Miglietta and G. Di FranciaVol. 1 Eurosensors 2017, Proceedings 2017, 1(4), 442http://dx.doi.org/10.3390/proceedings1040442 | NOySI |
High-Performance Ammonia Sensor at Room Temperature Based on a Love-Wave Device with Fe2O3@WO3−x NanoneedlesF. A. Bahos, S. Vallejos, Isabel Gràcia, C. Cané, M. J. Fernández, M. C. Horrillo and Daniel MatataguiProceedings 2017, 1(4), 484https://doi.org/10.3390/proceedings1040484 | SENSAVAN NOySI |
Acoustic sensors based on amino-functionalized nanoparticles to detect volatile organic solventsMatatagui, D.; Kolokoltsev, O.; Saniger, J.M.; Gràcia, I.; Fernández, M.J.; Fontecha, J.L.; Horrillo, M.D.C.Gutierrez M.I., Vera A., Leija L., Ramos A., Gutierrez J.Molecular Diversity Preservation International, Sensors, vol. 17, n.º 11, 2624http://dx.doi.org/10.3390/s17112624 | SENSAVAN |
Gas sensors based on elasticity changes of nanoparticle layersFragoso-Mora, J.R.; Matatagui, D.; Bahos, F.A.; Fontecha, J.; Fernandez, M.J.; Santos, J.P.; Sayago, I.; Gràcia, I.; Horrillo, M.C.Sensors and Actuators, B: Chemical, vol. 268, pp. 93-99, Elsevier BVhttp://dx.doi.org/10.1016/j.snb.2018.04.045 | SENSAVAN NOySI |
Centro de Estudios e Investigaciones Técnicas de Gipuzkoa; CNM; ITEFI; Universitat de Barcelona; Universidad de Extremadura; UPC