Title :
Investigation of Humidity Sensor Effect in Silver Nanoparticle Ink Sensors Printed on Paper
Author :
Andersson, Hakan ; Manuilskiy, Anatoliy ; Jinlan Gao ; Lidenmark, Cecilia ; Siden, J. ; Forsberg, Sven ; Unander, Tomas ; Nilsson, Hans-Erik
Author_Institution :
Electron. Design Dept., Mid-Sweden Univ., Sundsvall, Sweden
Abstract :
Thin inkjet-printed tracks of silver nanoparticles have previously been observed to show a non-reversible decrease in resistance when exposed to a high degree of relative humidity and thus providing sensor functionality with a memory effect. This paper provides a more in-depth explanation of the observed humidity sensor effect that originates from inkjet-printed silver nanoparticle sensors on a paper substrate. It is shown that the geometry of the sensor has a large effect on the sensor´s initial resistance, and therefore also on the sensor´s resistive dynamic range. The importance of the sensor geometry is believed to be due to the amount of solvent from the ink interacting with the coating of the paper substrate, which in turn enables the diffusion of salts from the paper coating into the ink and thus affecting the silver ink.
Keywords :
coating techniques; diffusion; electric resistance; flexible electronics; humidity sensors; ink jet printing; nanoparticles; nanosensors; paper; silver; Ag; degree of relative humidity; humidity sensor effect; inkjet printed silver nanoparticle sensor; inkjet printed track; memory effect; nonreversible resistance decreasing; paper substrate coating; salt diffusion; sensor functionality; sensor geometry; sensor initial resistance; sensor resistive dynamic range; silver nanoparticle ink sensor; Coatings; Humidity; Ink; Resistance; Silver; Solvents; Substrates; Humidity sensor; ink jet; silver nanoparticle ink;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2284033
