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  1. Home
  3. Correction: Sizing Multimodal Suspensions With Differential Dynamic Microscopy.
  1. Home
  3. Correction: Sizing Multimodal Suspensions With Differential Dynamic Microscopy.

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Correction: Sizing multimodal suspensions with differential dynamic microscopy.

Joe J Bradley1, Vincent A Martinez1, Jochen Arlt1

  • 1School of Physics & Astronomy, The University of Edinburgh, Peter Guthrie Tait Road, Edinburgh EH9 3FD, UK. w.poon@ed.ac.uk.

Soft Matter
|March 28, 2024

View abstract on PubMed

Summary
This summary is machine-generated.

This correction clarifies the sizing of multimodal suspensions using differential dynamic microscopy. The updated information ensures accurate characterization of complex fluid dynamics and particle analysis.

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Area of Science:

  • Soft Matter Physics
  • Colloidal Science
  • Materials Science

Context:

  • Differential dynamic microscopy (DDM) is a powerful technique for analyzing the dynamics of complex fluids.
  • Accurate sizing of particles in multimodal suspensions is crucial for understanding their behavior.
  • Previous work by Bradley et al. introduced a DDM-based method for this purpose.

Purpose:

  • To provide a correction to the original publication 'Sizing multimodal suspensions with differential dynamic microscopy'.
  • To ensure the accuracy and reliability of the DDM methodology for particle sizing.
  • To refine the understanding of multimodal suspension characterization.

Summary:

  • This correction addresses specific details within the methodology and results presented in the original article.
  • The revised information pertains to the accurate determination of particle size distributions in complex suspensions.
  • The updated findings reinforce the utility of DDM for quantitative analysis of soft matter systems.

    • Impact:

    • Ensures researchers utilize the most accurate data for multimodal suspension characterization.
    • Enhances the reliability of differential dynamic microscopy as a tool in soft matter research.
    • Facilitates more precise investigations into the properties and applications of colloidal systems.