Title :
Piezoresistive cantilever force sensors based on polycrystalline silicon
Author :
Villanueva, L.G. ; Rius, G. ; Perez-Murano, F. ; Bausells, J.
Author_Institution :
EPFL, Lausanne, Switzerland
Abstract :
We report the fabrication of polycrystalline silicon piezoresistive cantilevers with submicron width and thickness for static force measurements, using electron beam lithography (EBL) and silicon micromachining. For cantilevers with length of 150 μm, leg width of 500 nm and thickness of 320 nm, a force sensitivity of 97 μV/pN and a resolution of 30 pN have been obtained. Bigger cantilevers (leg width 6 μm, thickness 650 nm) fabricated with nominally identical processing conditions have shown a lower resistivity and a higher gauge factor. We show that the differences result from an increased effect of the grain boundaries for the smaller cantilevers. But these have a better force sensitivity and resolution due to their reduced lateral dimensions.
Keywords :
cantilevers; electron beam lithography; elemental semiconductors; force measurement; force sensors; gauges; micromachining; microsensors; piezoresistive devices; silicon; EBL; Si; electron beam lithography; gauge factor; grain boundary; micromachining; piezoresistive cantilever force sensor; polycrystalline silicon; size 150 mum; size 320 nm; size 500 nm; size 6 mum; size 650 nm; static force measurement; Conductivity; Force; Grain boundaries; Noise; Piezoresistance; Sensors; Silicon; Cantilever; force sensor; piezoresistance; polysilicon;
Conference_Titel :
Electron Devices (CDE), 2015 10th Spanish Conference on
Conference_Location :
Madrid
DOI :
10.1109/CDE.2015.7087491
