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Fast and Accurate Nanoparticle Characterization Using Deep-Learning-Enhanced Off-Axis Holography

Benjamin Midtvedt, Erik Olsén, Fredrik Eklund, Fredrik Höök, Caroline B. Adiels, Giovanni Volpe, Daniel Midtvedt

2021ACS Nano42 citationsDOIOpen Access PDF

Abstract

the diffusion constant and, as a consequence, require long trajectories and that the medium has a known and uniform viscosity. However, in most biological applications, only short trajectories are available, while simultaneously, the medium viscosity is unknown and tends to display spatiotemporal variations. In this work, we demonstrate a label-free method to quantify not only size but also refractive index of individual subwavelength particles using 2 orders of magnitude shorter trajectories than required by standard methods and without prior knowledge about the physicochemical properties of the medium. We achieved this by developing a weighted average convolutional neural network to analyze holographic images of single particles, which was successfully applied to distinguish and quantify both size and refractive index of subwavelength silica and polystyrene particles without prior knowledge of solute viscosity or refractive index. We further demonstrate how these features make it possible to temporally resolve aggregation dynamics of 31 nm polystyrene nanoparticles, revealing previously unobserved time-resolved dynamics of the monomer number and fractal dimension of individual subwavelength aggregates.

Topics & Concepts

Materials scienceNanoparticleRefractive indexCharacterization (materials science)ViscosityBiological systemPolystyreneFractal dimensionHolographyDiffusionRange (aeronautics)NanotechnologySizingParticle (ecology)OpticsPolymerOptoelectronicsFractalComposite materialChemistryPhysicsGeologyBiologyOrganic chemistryOceanographyThermodynamicsMathematical analysisMathematicsDigital Holography and MicroscopyMicrofluidic and Bio-sensing TechnologiesAdvanced Fluorescence Microscopy Techniques
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