期刊
BIOPHYSICAL JOURNAL
卷 122, 期 17, 页码 3439-3446出版社
CELL PRESS
DOI: 10.1016/j.bpj.2023.07.018
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This study characterized the trapping of nanoscale beads made of diamond and titanium dioxide in a single-beam gradient trap and found that the trapping stiffness was significantly higher for TiO2 beads due to notable enhancement from nonlinear optical effects. The results suggest that diamond and TiO2 nanobeads can be used to improve time resolution in optical tweezers measurements.
Optical trapping in biophysics typically uses micron-scale beads made of materials like polystyrene or glass to probe the target of interest. Using smaller beads made of higher-index materials could increase the time resolution of these mea-surements. We characterized the trapping of nanoscale beads made of diamond and titanium dioxide (TiO2) in a single-beam gradient trap. Calculating theoretical expectations for the trapping stiffness of these beads, we found good agreement with measured values. Trap stiffness was significantly higher for TiO2 beads, owing to notable enhancement from nonlinear optical effects, not previously observed for continuous-wave trapping. Trap stiffness was over 6-fold higher for TiO2 beads than poly-styrene beads of similar size at 70 mW laser power. These results suggest that diamond and TiO2 nanobeads can be used to improve time resolution in optical tweezers measurements.
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