Long-range three-dimensional tracking of nanoparticles using interferometric scattering (iSCAT) microscopy

TL;DR

This paper introduces a robust method for three-dimensional tracking of nanoparticles over tens of micrometers using interferometric scattering microscopy, achieving high spatial and temporal resolution with nanometer precision.

Contribution

The authors develop an efficient algorithm enabling 3D localization of nanoparticles in high-speed iSCAT videos over extended axial ranges, surpassing previous limitations.

Findings

Achieved nanometer axial localization precision.

Tracked 10 nm gold nanoparticles in water.

Maintained 5 μs temporal resolution.

Abstract

Tracking nanoparticle movement is highly desirable in many scientific areas, and various imaging methods have been employed to achieve this goal. Interferometric scattering (iSCAT) microscopy has been particularly successful in combining very high spatial and temporal resolution for tracking small nanoparticles in all three dimensions. However, previous works have been limited to an axial range of only a few hundred nanometers. Here, we present a robust and efficient strategy for localizing nanoparticles recorded in high-speed iSCAT videos in three dimensions over tens of micrometers. We showcase the performance of our algorithm by tracking gold nanoparticles as small as 10 nm diffusing in water while maintaining 5 {\mu}s temporal resolution and nanometer axial localization precision. Our results hold promise for applications in cell biology and material science, where the three-dimensional motion of nanoparticles in complex media is of interest.