Review of scaling effects on physical properties and practicalities of cantilever sensors

Yang, C.; van der Drift, E.W.J.M.; French, P.J.

doi:10.1088/1361-6439/ac8559

Review of scaling effects on physical properties and practicalities of cantilever sensors

Review (2022)

Authors

C. Yang BUS/Quantum Delft - QuTech Advanced Research Centre

E.W.J.M. van der Drift Management Support

P.J. French Bio-Electronics -

Research Group

Management Support

DOI: https://doi.org/10.1088/1361-6439/ac8559

Scaling Cantilever Physical Properties Effects Practicalities

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Published Date

2022

Language

English

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Research Group

Management Support

Abstract

Reducing sensor dimension is a good way to increase system sensitivity and response. However the advantages gained must be weighed against other effects which also became significant during the scaling process. In this paper, the scaling effect of cantilever sensors from micrometre to nanometre regimes is reviewed. Changes in the physical properties such as Q-factor, Young's modulus, noise and nonlinear deflections, as well as effects on practical sensor applications such as sensor response and sensor readouts, are presented. Since cantilever is an elemental transducer and device building block, its scaling effects can be further extrapolated to other sensing systems and applications.

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