Basit Ali scite author profile

The miniaturization of microelectromechanical systems (MEMS) physical sensors is driven by global connectivity needs and is closely linked to emerging digital technologies and the Internet of Things. Strong technical advantages of miniaturization such as improved sensitivity, functionality, and power consumption are accompanied by significant economic benefits due to semiconductor manufacturing. Hence, the trend to produce smaller sensors and their driving force resemble very much those of the miniaturization of integrated circuits (ICs) as described by Moore's law. In this respect, with its IC‐, and MEMS‐compatibility, and scalability, the silicon nanowire is frequently employed in frontier research as the sensor building block replacing conventional sensors. The integration of the silicon nanowire with MEMS has thus generated a multiscale hybrid architecture, where the silicon nanowire serves as the piezoresistive transducer and MEMS provide an interface with external forces, such as inertial or magnetic. This approach has been reported for almost all physical sensor types over the last decade. These sensors are reviewed here with detailed classification. In each case, associated technological challenges and comparisons with conventional counterparts are provided. Future directions and opportunities are highlighted.

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Stencil lithography for bridging MEMS and NEMS

Ali

Karimzadehkhouei

Esfahani

et al. 2023

Micro and Nano Engineering

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Use of an elastic buffer layer for improved performance of a polymer microcylinder ring resonator hydrogen sensor

Bavili

Ali

Morová

et al. 2022

Sensors and Actuators B: Chemical

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Basit Ali

Silicon Nanowires Driving Miniaturization of Microelectromechanical Systems Physical Sensors: A Review

Stencil lithography for bridging MEMS and NEMS

Use of an elastic buffer layer for improved performance of a polymer microcylinder ring resonator hydrogen sensor

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