Title :
ZnO Nanowire Embedded Strain Sensing Cantilever: A New Ultra-Sensitive Technology Platform
Author :
Ray, Priyadip ; Rao, Valipe Ramgopal
Author_Institution :
Dept. of Electr. Eng., Indian Inst. of Technol., Mumbai, Mumbai, India
Abstract :
A novel ultra sensitive micro-cantilever-based technology platform was developed in this letter for strain sensing applications. Sensing mechanism is based on electrical conduction through the ZnO nanowires embedded inside a SU-8 polymer cantilever beam. The lower Young´s modulus of the polymer and the higher strain sensitivity of ZnO nanowires are used to improve the performance of these micro-cantilever devices. Deflection sensitivity of this technology is measured to be 128 ppm/nm. Besides the electromechanical characterization, mechanical characterization has also been performed to measure the resonant frequency of these microcantilever devices, which is shown to be in a few tens of kilohertz range, suitable for nanomechanical sensing applications.
Keywords :
Young´s modulus; beams (structures); cantilevers; electrical conductivity; electromechanical effects; micromechanical devices; nanowires; strain sensors; zinc compounds; SU-8 polymer cantilever beam; Young´s modulus; ZnO; deflection sensitivity; electrical conduction; electromechanical characterization; microcantilever devices; nanomechanical sensing applications; resonant frequency; sensing mechanism; strain sensitivity; ultra sensitive microcantilever-based technology platform; ultra-sensitive technology platform; zinc oxide nanowire embedded strain sensing cantilever; Microcantilever; ZnO nanowire; sensor;
Journal_Title :
Microelectromechanical Systems, Journal of
DOI :
10.1109/JMEMS.2013.2262601
