Title :
Modified standard screen-printing technology for processing of free-standing physical and chemical sensors
Author :
Debeda, Helene ; Lucat, Claude
Author_Institution :
Lab. IMS, Univ. de Bordeaux, Talence, France
Abstract :
Though silicon technology allows the processing of MEMS, alternative technologies are also attractive and have been developed for a few years. Potential achievement of organic and inorganic thick-film MEMS is studied through the association of the sacrificial layer process to the well-known screen-printing technology used for the fabrication of low cost components and microelectronic circuits. Organic and inorganic microstructures are successfully fabricated and tested for force, vibration or gas detection.
Keywords :
chemical sensors; integrated circuits; microsensors; thick film sensors; chemical sensors; free-standing physical sensors; inorganic microstructures; inorganic thick-film MEMS; microelectronic circuits; organic microstructures; organic thick-film MEMS; screen-printing technology; Fabrication; Force sensors; Frequency measurement; Gas detectors; Gold; Substrates; Vibrations; COV detection; PZT; actuator; force sensor; gas sensor; screen-printing; thick film; transducer; vibration sensor;
Conference_Titel :
SENSORS, 2014 IEEE
Conference_Location :
Valencia
DOI :
10.1109/ICSENS.2014.6985450
