This project will further optimize the microstructure of the ciliated array.<br>Because the cilia array can magnify the structural deformation caused by the pressure change, the sensitivity of the sensor will be greatly improved<br>The sealed cavity of the sensor's reference pressure and its signal electrode film will be fabricated by the traditional MEMS process.<br>In order to make the cilia have the best penetration effect to greatly improve the sensitivity and resolution.<br>The project will also develop technologies for deposition of conductive particles on cilia, including nanoparticle spray technology and nanometal cluster technology.<br>The sensing effects of the conductive particles generated by the two different methods are compared.<br>In addition, in order to achieve uniform sputtering of nanoparticle films.<br>In addition to self-assembly of a simple ultrasonic coating system for carbon nanotube particle spraying, the project will develop an innovative customized gas condensation source system.<br>The capillary microstructure and permeability effect of the sensing unit are the main factors.<br>In addition to its high sensitivity, wide range of pressure detection and low pressure detectability limit, the innovative element proposed in this project has the following advantages.<br>It also has the advantages of fast response time, recoverability and durability.<br>It will meet the needs of various applications, including wearable electronic devices, absolute pressure sensing, barometer, physiological signal monitoring and minimally invasive surgery.<br>
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