Microfluidics has demonstrated high versatility in the analysis of in-flow particles and can even achieve mechanical properties measurements of biological cells by applying hydrodynamic forces. However, there is currently no available technique that enables the direct measurement and tracking of these hydrodynamic forces acting on a flowing particle. In this work, we introduce a novel method for the direct measurement of the hydrodynamic force actuating on an in-flow particle based on the analysis of the induced resonance changes of suspended microchannel resonators (SMRs). This hydrodynamic force sensitivity depends on the device used; therefore, we considered the geometry and materials to advance this dependency on the SMR resonance frequency. [Figure not available: see fulltext.]
Nanomechanical hydrodynamic force sensing using suspended microfluidic channels / MARTIN PEREZ, Alberto.; Ramos, D.. - In: MICROSYSTEMS & NANOENGINEERING. - ISSN 2055-7434. - 9:1(2023). [10.1038/s41378-023-00531-1]
Nanomechanical hydrodynamic force sensing using suspended microfluidic channels
MARTIN PEREZ, ALBERTO.;
2023
Abstract
Microfluidics has demonstrated high versatility in the analysis of in-flow particles and can even achieve mechanical properties measurements of biological cells by applying hydrodynamic forces. However, there is currently no available technique that enables the direct measurement and tracking of these hydrodynamic forces acting on a flowing particle. In this work, we introduce a novel method for the direct measurement of the hydrodynamic force actuating on an in-flow particle based on the analysis of the induced resonance changes of suspended microchannel resonators (SMRs). This hydrodynamic force sensitivity depends on the device used; therefore, we considered the geometry and materials to advance this dependency on the SMR resonance frequency. [Figure not available: see fulltext.]File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2985141