File:Symmetric self-thermophoretic active particle and its properties.webp
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DescriptionSymmetric self-thermophoretic active particle and its properties.webp |
English: Symmetric self-thermophoretic active particle and its properties a Scheme of the self-thermophoretic active particle composed of a melamine resin particle (R = 1.09 μm) covered at 30% surface area by 10 nm gold nanoparticles. The nanoparticles can be heated by an incident laser beam (beam waist ω0) to generate an inhomogeneous temperature profile along the particle surface. This profile causes a thermo-osmotic slip flow propelling the particle at vth away from the laser. The velocity of the particle is determined by the displacement δx of the laser focus from the particle center. The scale bar has a length of 1 μm. b The particle velocity and control accuracy is derived from an experiment driving the particle between two target positions and confining it for 100 frames at each position. Example trajectory points (laser positions (green), particle position during trapping (orange), particle positions during driving (red)) (see Supplementary Movie 1). c Extracted particle speed as a function of the heating power. The error bars reflect the standard deviations from at least driving periods as shown in Supplementary Fig. 5. The nonlinear dependence is analyzed in the Supplementary Information. d Control accuracy as a function of the particle speed determined from the experiment in (b). The upwards and downwards triangles correspond to the data from the left and right target, respectively. The dashed lines are the contributions from the 2-dimensional sedimentation (red) and the particle overshooting (black). The solid black curve represents the sum of both contributions |
Date | |
Source | [1] doi:10.1038/s41467-018-06445-1 |
Author | Utsab Khadka, Viktor Holubec, Haw Yang & Frank Cichos |
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current | 23:29, 29 October 2021 | 1,794 × 1,499 (139 KB) | Epipelagic (talk | contribs) | Uploaded a work by Utsab Khadka, Viktor Holubec, Haw Yang & Frank Cichos from [https://www.nature.com/articles/s41467-018-06445-1#citeas] {{doi|10.1038/s41467-018-06445-1}} with UploadWizard |
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