2021
DOI: 10.1038/s41377-021-00684-6
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Force measurement goes to femto-Newton sensitivity of single microscopic particle

Abstract: Highly sensitive force measurements of a single microscopic particle with femto-Newton sensitivity have remained elusive owing to the existence of fundamental thermal noise. Now, researchers have proposed an optically controlled hydrodynamic manipulation method, which can measure the weak force of a single microscopic particle with femto-Newton sensitivity.

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Cited by 11 publications
(4 citation statements)
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“…13(c)] [177] . Suspended particles could be trapped in the stagnation zone with balanced counterflows [178,179] . Moreover, by translating the laser spot, the trapping sites would evolve accordingly, which always locate several micrometers away from the plasmonic hot region, as exhibited in Fig.…”
Section: Opto-thermoelectrohydrodynamic Tweezersmentioning
confidence: 99%
“…13(c)] [177] . Suspended particles could be trapped in the stagnation zone with balanced counterflows [178,179] . Moreover, by translating the laser spot, the trapping sites would evolve accordingly, which always locate several micrometers away from the plasmonic hot region, as exhibited in Fig.…”
Section: Opto-thermoelectrohydrodynamic Tweezersmentioning
confidence: 99%
“…Optical tweezing, also known as a single-beam gradient force trap, has the sensitivity of trapping a single molecule or a single nanoparticle and is frequently used in biomedical applications [ 17 ]. Depending on the refractive index of particles and surrounding medium, a laser beam creates attractive or repulsive forces [ 135 ], which can manipulate even dielectric and absorbing particles at the focal point, Figure 11 , which is also known as beam waist [ 14 , 19 , 136 ].…”
Section: Microfluidicsmentioning
confidence: 99%
“…There are also a variety of other technologies which have gradually been developed for contact force measurement. For example, Zhang et al ( 19 ) used an optically controlled hydrodynamic manipulation method for measuring the weak force of a single microscopic particle. However, the accuracy of this technology is greatly affected by local electric and magnetic fields.…”
Section: Introductionmentioning
confidence: 99%