Title :
Hydrogel-based Piezoresistive pH Sensors: Modeling, Simulation and Experimental Verification
Author :
Trinh, Q. Thong ; Guenther, M. ; Sorber, J. ; Gerlach, G.
Author_Institution :
Inst. for Solid-State Electron. (IFE), Technische Univ. Dresden (TUD)
Abstract :
This paper presents the investigations of a novel type of piezoresistive pH sensors exploiting the chemo- mechanical energy conversion due to PVA/PAA hydrogel swelling. The sensor structure consists of three parts including a commercial piezoresistive pressure sensor chip, a hydrogel layer, and a rigid grid. The sensor behaviour comprising membrane deflection, membrane stress and output voltage due to the hydrogel swelling has been calculated by finite element method using ANSYS software. It has also been determined experimentally and was compared with those obtained by simulation. A relatively good agreement between caculated and measured results could be achieved
Keywords :
chemical sensors; finite element analysis; membranes; pH measurement; piezoresistive devices; pressure sensors; swelling; ANSYS software; PAA hydrogel swelling; PVA hydrogel swelling; chemo-mechanical energy conversion; finite element method; hydrogel layer; hydrogel-based piezoresistive sensors; membrane deflection; membrane stress; pH sensors; piezoresistive pressure sensor chip; rigid grid; Actuators; Biomembranes; Energy conversion; Intelligent sensors; Mechanical sensors; Piezoresistance; Solid modeling; Strain measurement; Stress; Voltage;
Conference_Titel :
Electronics Systemintegration Technology Conference, 2006. 1st
Conference_Location :
Dresden
Print_ISBN :
1-4244-0552-1
Electronic_ISBN :
1-4244-0553-x
DOI :
10.1109/ESTC.2006.280142
