Julia Aebersold scite author profile

In this paper, we explore microfabricated bistable actuators released as thin films from a silicon wafer. The actuators are based on a serpentine design where two cantilevers are coupled at the tips by a thin-film bar. These devices are parameterized by two lengths: cantilever length and the length of the coupling bar. These two dimensions are systematically varied to study the effect of design parameters on bistability. The three-dimensional devices have extremely large deflection (hundreds of microns rather than tens of microns for most planar microactuators of similar size) and are thermally actuated out of the plane of the wafer by applying a bias across either the left or right side of the serpentine. The bistability of these devices is evaluated using electron and optical microscopy. Potential applications include non-volatile mechanical memory, optical shutters, and reconfigurable antenna elements.

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Development of Ultra-Miniaturized Piezoresistive Pressure Sensors for Biomedical Applications

Gowrishetty

Walsh

Aebersold

et al. 2008

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Julia Aebersold

Development of capacitive pure bending strain sensor for wireless spinal fusion monitoring

Development of Ultra-Miniature Pressure Sensors for 1-French Biomedical Applications and Beyond

Single element 3-terminal pressure sensors: A new approach to pressure sensing and its comparison to the half bridge sensors

Bistable out-of-plane stress-mismatched thermally actuated bilayer devices with large deflection

Development of Ultra-Miniaturized Piezoresistive Pressure Sensors for Biomedical Applications

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