Add to ORKGMass sensors, such as contour mode resonators are promising approach for biosensing in liquid environment. Their miniaturization offers many advantages, including small sample volume, rapid analysis, low power consumption, and integration of multiple devices. This study reports on the microfabrication and characterization of AlN contour mode resonator for biosensing. The resonators are coated with gold layer for further biofunctionalization and are assembled with a tailored microfluidic for delivering liquid in close proximity of the sensing layer. The quality factor of the resonators measured in DI water and PBS is around 70, while in air is up to 847. Based on this study, future improvements are proposed for the fabrication of better-perf...
We present a resonant mass sensor for specific biomolecular detection in a subnanoliter fluid volume...
A thickness longitudinal mode (TLM) thin film bulk acoustic resonator biosensor is demonstrated to o...
The research presented herein focuses on the use of micro- and nanoelectromechanical systems (MEMS/N...
This paper reports on the first demonstration of a 457 MHz AlN Piezolectric Resonant Nanochannel (PR...
This paper reports on the first demonstration of a 457 MHz AlN Piezolectric Resonant Nanochannel (PR...
The research objective presented in this dissertation is to develop novel micro-electromechanical sy...
In recent years, the demand of miniaturized sensors able to operate in fluids has been steadily grow...
This work presents a cantilever-based mass-sensitive microsensor platform for the detection of biomo...
In recent years the demand of highly miniaturized sensor arrays capable of selectively detecting ext...
In recent years the demand of highly miniaturized sensor arrays capable of selectively detecting ext...
This work presents low motional resistance piezoelectric MEMS resonators with the highest quality fa...
Resonant and acoustic wave devices have been researched for several decades for application in the g...
We investigate the performance of solidly mounted resonators based on Ir/tilted-AlN/Ir piezoelectric...
We investigate the performance of solidly mounted resonators based on Ir/tilted-AlN/Ir piezoelectric...
This paper reports on a new class of nanoscaled piezoelectric aluminum nitride contour-mode resonant...
We present a resonant mass sensor for specific biomolecular detection in a subnanoliter fluid volume...
A thickness longitudinal mode (TLM) thin film bulk acoustic resonator biosensor is demonstrated to o...
The research presented herein focuses on the use of micro- and nanoelectromechanical systems (MEMS/N...
This paper reports on the first demonstration of a 457 MHz AlN Piezolectric Resonant Nanochannel (PR...
This paper reports on the first demonstration of a 457 MHz AlN Piezolectric Resonant Nanochannel (PR...
The research objective presented in this dissertation is to develop novel micro-electromechanical sy...
In recent years, the demand of miniaturized sensors able to operate in fluids has been steadily grow...
This work presents a cantilever-based mass-sensitive microsensor platform for the detection of biomo...
In recent years the demand of highly miniaturized sensor arrays capable of selectively detecting ext...
In recent years the demand of highly miniaturized sensor arrays capable of selectively detecting ext...
This work presents low motional resistance piezoelectric MEMS resonators with the highest quality fa...
Resonant and acoustic wave devices have been researched for several decades for application in the g...
We investigate the performance of solidly mounted resonators based on Ir/tilted-AlN/Ir piezoelectric...
We investigate the performance of solidly mounted resonators based on Ir/tilted-AlN/Ir piezoelectric...
This paper reports on a new class of nanoscaled piezoelectric aluminum nitride contour-mode resonant...
We present a resonant mass sensor for specific biomolecular detection in a subnanoliter fluid volume...
A thickness longitudinal mode (TLM) thin film bulk acoustic resonator biosensor is demonstrated to o...
The research presented herein focuses on the use of micro- and nanoelectromechanical systems (MEMS/N...