"Hub\u00E1lek, Jarom\u00EDr" . . "Z(MSM 262200022)" . . "96" . "[E578E8BADB3C]" . . "NL - Nizozemsko" . . . "Malysz, Karel" . "11"^^ . "0"^^ . . "0"^^ . "Micromachined gas sensor; Screen-printing; Tin oxide; Nanopowder; Volatile organic compounds"@en . "By means of s screen-printing technique, sensitive layers of nanopowder tin oxide were deposited on silicon micromachined substrates. The thickness of the sensing layers was 5um and particle size was around 40nm. The deposition method overcomes disadvantages such as low porosity and low surface area, generally associated to chemical vapour deposition or sputtering methods, and keeps power consumption low(80mW for working temperature of 480\u00B0C). With fuzzy neural network, it is posible to identify the diffferent species measured (success rate was higher than 91%)." . "2"^^ . "RIV/00216305:26220/03:PU38693!RIV/2004/MSM/262204/N" . "Screen-printed nanoparticle tin oxide films for high-yield sensor systems" . "RIV/00216305:26220/03:PU38693" . . "Screen-printed nanoparticle tin oxide films for high-yield sensor systems"@en . "1" . "By means of s screen-printing technique, sensitive layers of nanopowder tin oxide were deposited on silicon micromachined substrates. The thickness of the sensing layers was 5um and particle size was around 40nm. The deposition method overcomes disadvantages such as low porosity and low surface area, generally associated to chemical vapour deposition or sputtering methods, and keeps power consumption low(80mW for working temperature of 480\u00B0C). With fuzzy neural network, it is posible to identify the diffferent species measured (success rate was higher than 91%)."@en . . . . . . . "Screen-printed nanoparticle tin oxide films for high-yield sensor systems"@en . "9"^^ . "94-104" . "Screen-printed nanoparticle tin oxide films for high-yield sensor systems" . "0925-4005" . "Sensors and Actuators B: Chemical" . "626451" . "26220" . . . . . .