Add to ORKGGallium nitride (GaN) is a compound semiconductor which shows advantages in new functionalities and applications due to its piezoelectric, optoelectronic, and piezo-resistive properties. This study develops a thin film GaN-based acoustic tweezer (GaNAT) using surface acoustic waves (SAWs) and demonstrates its acoustofluidic ability to pattern and manipulate microparticles. Although the piezoelectric performance of the GaNAT is compromised compared with conventional lithium niobate-based SAW devices, the inherited properties of GaN allow higher input powers and superior thermal stability. This study shows for the first time that thin film GaN is suitable for the fabrication of the acoustofluidic devices to manipulate microparticles with exce...
Acoustic wave sensors have numerous applications in physical, chemical and biological sensing. Among...
This paper covers various sensors and microsystems based on gallium nitride (GaN) micro mechanical (...
In this work we have fabricated and characterized GaN-based surface acoustic wave filters grown by m...
Gallium nitride (GaN) is a compound semiconductor which shows advantages in new functionalities and ...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
This work describes a novel architecture to realize high-performance gallium nitride (GaN) bulk acou...
Gallium nitride (GaN) is an excellent choice of semiconductor material due to its optoelectronic, me...
To date, most surface acoustic wave (SAW) devices have been made from bulk piezoelectric materials, ...
International audienceIn our previous research we already demonstrated micro acoustic devices, such ...
Gallium nitride (GaN) is an excellent choice of semiconductor material due to its optoelectronic, me...
The surface morphology and characteristic parameters were analyzed for surface acoustic wave (SAW) f...
We present acoustic charge transport in GaN nanowires (GaN NWs). The GaN NWs were grown by molecular...
ISBN: 1-4244-0107-0In this paper, we present the modeling of the mechanical part of a MEMS (microele...
Acoustic wave sensors have numerous applications in physical, chemical and biological sensing. Among...
This paper covers various sensors and microsystems based on gallium nitride (GaN) micro mechanical (...
In this work we have fabricated and characterized GaN-based surface acoustic wave filters grown by m...
Gallium nitride (GaN) is a compound semiconductor which shows advantages in new functionalities and ...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
Gallium nitride (GaN) is a compound semiconductor which has advantages to generate new functionaliti...
This work describes a novel architecture to realize high-performance gallium nitride (GaN) bulk acou...
Gallium nitride (GaN) is an excellent choice of semiconductor material due to its optoelectronic, me...
To date, most surface acoustic wave (SAW) devices have been made from bulk piezoelectric materials, ...
International audienceIn our previous research we already demonstrated micro acoustic devices, such ...
Gallium nitride (GaN) is an excellent choice of semiconductor material due to its optoelectronic, me...
The surface morphology and characteristic parameters were analyzed for surface acoustic wave (SAW) f...
We present acoustic charge transport in GaN nanowires (GaN NWs). The GaN NWs were grown by molecular...
ISBN: 1-4244-0107-0In this paper, we present the modeling of the mechanical part of a MEMS (microele...
Acoustic wave sensors have numerous applications in physical, chemical and biological sensing. Among...
This paper covers various sensors and microsystems based on gallium nitride (GaN) micro mechanical (...
In this work we have fabricated and characterized GaN-based surface acoustic wave filters grown by m...