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etchingElection
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We report a novel micromachining process to fabricate AlN (Aluminum Nitride) piezoelectric microstructures for actuator applications. Piezoelectric AlN thin films can be grown with (002) preferential orientation by means of RF reactive sputtering on various substrates. For this study, AlN was deposited on doped polysilicon layers, which act as both structural, and electrode layer. A thin layer of Cr was used as top electrode and as a mask for patterning of the AlN piezoelectric layer. Silicon oxide was used as a sacrificial layer. The structures were released by a freeze drying technique. Single run deposition of AlN and Cr turns out to be necessary to ensure good adhesion of the Cr layer to the AlN thin film during the sacrificial etching ...
AbstractA comprehensive study on the complete process module for the fabrication of AlN-based MEMS s...
This work investigates the fundamental growth of c-axis oriented piezoelectric AlN thin films by RF ...
This report shows different fabrication procedures followed to obtain piezoelectric microcantilevers...
We report a novel micromachining process to fabricate AlN (Aluminum Nitride) piezoelectric microstru...
We report on a novel microfabrication method to fabricate aluminum nitride (AlN) piezoelectric micro...
We report on a novel microfabrication method to fabricate aluminum nitride (AlN) piezoelectric micro...
A novel surface micromachining process is reported for aluminum nitride (AlN) thin films to fabricat...
A comprehensive study on the complete process module for the fabrication of AlN-based MEMS sensors a...
AbstractA comprehensive study on the complete process module for the fabrication of AlN-based MEMS s...
We report a surface micromachining process for aluminum nitride (AlN) thin films to fabricate piezoe...
A comprehensive study on the complete process for the fabrication of AlN-based MEMS sensors and actu...
Aluminum Nitride (AlN) is explored as a thin film material for piezoelectric MEMS applications. A pu...
We present a surface micromachining process to fabricate AlN piezoelectric microstructures. The fabr...
Aluminum Nitride (AlN) is explored as a thin film material for piezoelectric MEMS applications. A pu...
Aluminum nitride (AlN) is a promising piezoelectric material suitable for full CMOS compatible MEMS ...
AbstractA comprehensive study on the complete process module for the fabrication of AlN-based MEMS s...
This work investigates the fundamental growth of c-axis oriented piezoelectric AlN thin films by RF ...
This report shows different fabrication procedures followed to obtain piezoelectric microcantilevers...
We report a novel micromachining process to fabricate AlN (Aluminum Nitride) piezoelectric microstru...
We report on a novel microfabrication method to fabricate aluminum nitride (AlN) piezoelectric micro...
We report on a novel microfabrication method to fabricate aluminum nitride (AlN) piezoelectric micro...
A novel surface micromachining process is reported for aluminum nitride (AlN) thin films to fabricat...
A comprehensive study on the complete process module for the fabrication of AlN-based MEMS sensors a...
AbstractA comprehensive study on the complete process module for the fabrication of AlN-based MEMS s...
We report a surface micromachining process for aluminum nitride (AlN) thin films to fabricate piezoe...
A comprehensive study on the complete process for the fabrication of AlN-based MEMS sensors and actu...
Aluminum Nitride (AlN) is explored as a thin film material for piezoelectric MEMS applications. A pu...
We present a surface micromachining process to fabricate AlN piezoelectric microstructures. The fabr...
Aluminum Nitride (AlN) is explored as a thin film material for piezoelectric MEMS applications. A pu...
Aluminum nitride (AlN) is a promising piezoelectric material suitable for full CMOS compatible MEMS ...
AbstractA comprehensive study on the complete process module for the fabrication of AlN-based MEMS s...
This work investigates the fundamental growth of c-axis oriented piezoelectric AlN thin films by RF ...
This report shows different fabrication procedures followed to obtain piezoelectric microcantilevers...
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