Demonstration of variable angle super-heterodyne dynamic light scattering for measuring colloidal dynamics

Daniel Crowley; Riande Dekker; Denis Botin; Nicole Schartl; Annalena Gross; Akanksha Agarwal; Sabrina Heidt; Jennifer Wenzl; Negar Zaghi; Evgenii Vorobev; Thomas Palberg

doi:10.1007/s00396-020-04669-6

Demonstration of variable angle super-heterodyne dynamic light scattering for measuring colloidal dynamics

Daniel Crowley
, Riande Dekker
, Denis Botin
, Nicole Schartl
, Annalena Gross
, Akanksha Agarwal
, Sabrina Heidt
, Jennifer Wenzl
, Negar Zaghi
, Evgenii Vorobev
, Thomas Palberg

Johannes Gutenberg Universität
Albert-Ludwigs-Universität Freiburg
Birla Institute of Technology and Science Pilani
GSI Helmholtzzentrum für Schwerionenforschung
University of British Columbia

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We demonstrate a prototype light scattering instrument combining a frequency domain approach to the intermediate scattering function from Super-Heterodyning Doppler Velocimetry with the versatility of a standard homodyne dynamic light scattering goniometer setup for investigations over a large range of scattering vectors. Comparing to reference experiments in correlation-time space, we show that the novel approach can determine diffusion constants and hence hydrodynamic radii with high precision and accuracy. Possible future applications are discussed shortly.

Original language	English
Pages (from-to)	259-268
Journal	Colloid and Polymer Science
Volume	299
Early online date	5 Jun 2020
DOIs	https://doi.org/10.1007/s00396-020-04669-6
Publication status	Published - 5 Jun 2020

Keywords

Light scattering
Super-heterodyning
Colloids
Diffusion
Instrumentation

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Crowley2021_Article_DemonstrationOfVariableAngleSuFinal published version, 1.13 MB

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title = "Demonstration of variable angle super-heterodyne dynamic light scattering for measuring colloidal dynamics",

abstract = "We demonstrate a prototype light scattering instrument combining a frequency domain approach to the intermediate scattering function from Super-Heterodyning Doppler Velocimetry with the versatility of a standard homodyne dynamic light scattering goniometer setup for investigations over a large range of scattering vectors. Comparing to reference experiments in correlation-time space, we show that the novel approach can determine diffusion constants and hence hydrodynamic radii with high precision and accuracy. Possible future applications are discussed shortly.",

keywords = "Light scattering, Super-heterodyning, Colloids, Diffusion, Instrumentation",

author = "Daniel Crowley and Riande Dekker and Denis Botin and Nicole Schartl and Annalena Gross and Akanksha Agarwal and Sabrina Heidt and Jennifer Wenzl and Negar Zaghi and Evgenii Vorobev and Thomas Palberg",

year = "2020",

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doi = "10.1007/s00396-020-04669-6",

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journal = "Colloid and Polymer Science",

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T1 - Demonstration of variable angle super-heterodyne dynamic light scattering for measuring colloidal dynamics

AU - Crowley, Daniel

AU - Dekker, Riande

AU - Botin, Denis

AU - Schartl, Nicole

AU - Gross, Annalena

AU - Agarwal, Akanksha

AU - Heidt, Sabrina

AU - Wenzl, Jennifer

AU - Zaghi, Negar

AU - Vorobev, Evgenii

AU - Palberg, Thomas

PY - 2020/6/5

Y1 - 2020/6/5

N2 - We demonstrate a prototype light scattering instrument combining a frequency domain approach to the intermediate scattering function from Super-Heterodyning Doppler Velocimetry with the versatility of a standard homodyne dynamic light scattering goniometer setup for investigations over a large range of scattering vectors. Comparing to reference experiments in correlation-time space, we show that the novel approach can determine diffusion constants and hence hydrodynamic radii with high precision and accuracy. Possible future applications are discussed shortly.

AB - We demonstrate a prototype light scattering instrument combining a frequency domain approach to the intermediate scattering function from Super-Heterodyning Doppler Velocimetry with the versatility of a standard homodyne dynamic light scattering goniometer setup for investigations over a large range of scattering vectors. Comparing to reference experiments in correlation-time space, we show that the novel approach can determine diffusion constants and hence hydrodynamic radii with high precision and accuracy. Possible future applications are discussed shortly.

KW - Light scattering

KW - Super-heterodyning

KW - Colloids

KW - Diffusion

KW - Instrumentation

U2 - 10.1007/s00396-020-04669-6

DO - 10.1007/s00396-020-04669-6

M3 - Article

SN - 1435-1536

VL - 299

SP - 259

EP - 268

JO - Colloid and Polymer Science

JF - Colloid and Polymer Science

ER -

Demonstration of variable angle super-heterodyne dynamic light scattering for measuring colloidal dynamics

Abstract

Keywords

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