Add to ORKGDynamic-mode microcantilever-based devices are potentially well suited to biological and chemical sensing applications. However, when these applications involve liquid-phase detection, fluid-induced dissipative forces can significantly impair device performance. Recent experimental and analytical research has shown that higher in-fluid quality factors (Q) are achieved by exciting microcantilevers in the lateral flexural mode. However, experimental results show that, for microcantilevers having larger width-to-length ratios, the behaviors predicted by current analytical models differ from measurements. To more accurately model microcantilever resonant behavior in viscous fluids and to improve understanding of lateral-mode sensor performance,...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
At the microscale, cantilever vibrations depend not only on the microstructure’s properties and geom...
Dynamic-mode microcantilever-based devices are well suited to biological and chemical sensing applic...
To more accurately model microcantilever resonant behavior in liquids and to improve lateral-mode se...
Recent experimental and analytical research has shown that higher in-fluid quality factors (Q) are a...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
Dynamically driven microcantilevers are normally excited into resonance in the out-of-plane flexural...
To achieve higher quality factors (Q) for microcantilevers used in liquid-phase sensing applications...
To achieve higher quality factors (Q) for microcantilevers used in liquid-phase sensing applications...
The characteristics of microcantilevers vibrating laterally in viscous liquid media are investigated...
Microcantilever-based resonant sensors are currently being utilized in chemical and biological senso...
Microcantilever-based resonant sensors are currently being utilized in chemical and biological senso...
© 2012 American Institute of Physics. The electronic version of this article is the complete one and...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
At the microscale, cantilever vibrations depend not only on the microstructure’s properties and geom...
Dynamic-mode microcantilever-based devices are well suited to biological and chemical sensing applic...
To more accurately model microcantilever resonant behavior in liquids and to improve lateral-mode se...
Recent experimental and analytical research has shown that higher in-fluid quality factors (Q) are a...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
Dynamically driven microcantilevers are normally excited into resonance in the out-of-plane flexural...
To achieve higher quality factors (Q) for microcantilevers used in liquid-phase sensing applications...
To achieve higher quality factors (Q) for microcantilevers used in liquid-phase sensing applications...
The characteristics of microcantilevers vibrating laterally in viscous liquid media are investigated...
Microcantilever-based resonant sensors are currently being utilized in chemical and biological senso...
Microcantilever-based resonant sensors are currently being utilized in chemical and biological senso...
© 2012 American Institute of Physics. The electronic version of this article is the complete one and...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
The resonant characteristics of laterally vibrating rectangular hammerhead microcantilevers in visco...
At the microscale, cantilever vibrations depend not only on the microstructure’s properties and geom...