Emergent dynamics of light-induced active colloids probed by XPCS

Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the past decades. One of the elegant methods for realizing such active motions is by means of custom synthesized Janus particles suspended in a catalytic med...

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Published in	New journal of physics Vol. 24; no. 9; pp. 93007 - 93021
Main Authors	Zinn, Thomas, Narayanan, Theyencheri, Kottapalli, Sai Nikhilesh, Sachs, Johannes, Sottmann, Thomas, Fischer, Peer
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.09.2022 Institute of Physics: Open Access Journals
Subjects	active colloids active dynamics Catalytic activity Diffusion coefficient Dynamics Illumination Nanoparticles Photon correlation spectroscopy Physics Ultraviolet radiation USAXS Velocity velocity fluctuations x-ray scattering XPCS
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Abstract	Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the past decades. One of the elegant methods for realizing such active motions is by means of custom synthesized Janus particles suspended in a catalytic medium that can be triggered upon illumination by ultraviolet light. In this work, the evolution of the particle dynamics from passive diffusive to active ballistic behavior upon light illumination was probed by multispeckle x-ray photon correlation spectroscopy (XPCS). This technique enables not only studying the emergence of active motions in three dimensions (3D) but also deciphering different contributions to the overall dynamics. Using a combination of homodyne and heterodyne analysis, the ensemble averaged mean velocity, velocity fluctuations and diffusion coefficient of particles were determined in the thermodynamic limit. Results revealed a gradual transition from diffusive to ballistic dynamics with systematic increase of the catalytic activity. At the intermediate region, the dynamics is dominated by Gaussian velocity fluctuations and an enhanced relaxation rate with a weaker wave vector dependence similar to superdiffusive behavior. For the highest activity, the dynamics became purely ballistic with Lorentzian-like distribution of velocity fluctuations. Presented results demonstrate that different aspects of active dynamics can be investigated in 3D over a broad range of Péclet numbers and other control parameters by means of multispeckle XPCS.
AbstractList	Abstract Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the past decades. One of the elegant methods for realizing such active motions is by means of custom synthesized Janus particles suspended in a catalytic medium that can be triggered upon illumination by ultraviolet light. In this work, the evolution of the particle dynamics from passive diffusive to active ballistic behavior upon light illumination was probed by multispeckle x-ray photon correlation spectroscopy (XPCS). This technique enables not only studying the emergence of active motions in three dimensions (3D) but also deciphering different contributions to the overall dynamics. Using a combination of homodyne and heterodyne analysis, the ensemble averaged mean velocity, velocity fluctuations and diffusion coefficient of particles were determined in the thermodynamic limit. Results revealed a gradual transition from diffusive to ballistic dynamics with systematic increase of the catalytic activity. At the intermediate region, the dynamics is dominated by Gaussian velocity fluctuations and an enhanced relaxation rate with a weaker wave vector dependence similar to superdiffusive behavior. For the highest activity, the dynamics became purely ballistic with Lorentzian-like distribution of velocity fluctuations. Presented results demonstrate that different aspects of active dynamics can be investigated in 3D over a broad range of Péclet numbers and other control parameters by means of multispeckle XPCS. Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the past decades. One of the elegant methods for realizing such active motions is by means of custom synthesized Janus particles suspended in a catalytic medium that can be triggered upon illumination by ultraviolet light. In this work, the evolution of the particle dynamics from passive diffusive to active ballistic behavior upon light illumination was probed by multispeckle x-ray photon correlation spectroscopy (XPCS). This technique enables not only studying the emergence of active motions in three dimensions (3D) but also deciphering different contributions to the overall dynamics. Using a combination of homodyne and heterodyne analysis, the ensemble averaged mean velocity, velocity fluctuations and diffusion coefficient of particles were determined in the thermodynamic limit. Results revealed a gradual transition from diffusive to ballistic dynamics with systematic increase of the catalytic activity. At the intermediate region, the dynamics is dominated by Gaussian velocity fluctuations and an enhanced relaxation rate with a weaker wave vector dependence similar to superdiffusive behavior. For the highest activity, the dynamics became purely ballistic with Lorentzian-like distribution of velocity fluctuations. Presented results demonstrate that different aspects of active dynamics can be investigated in 3D over a broad range of Péclet numbers and other control parameters by means of multispeckle XPCS.
Author	Zinn, Thomas Narayanan, Theyencheri Sachs, Johannes Kottapalli, Sai Nikhilesh Fischer, Peer Sottmann, Thomas
Author_xml	– sequence: 1 givenname: Thomas surname: Zinn fullname: Zinn, Thomas organization: ESRF-The European Synchrotron , F-38043, Grenoble, France – sequence: 2 givenname: Theyencheri surname: Narayanan fullname: Narayanan, Theyencheri organization: ESRF-The European Synchrotron , F-38043, Grenoble, France – sequence: 3 givenname: Sai Nikhilesh surname: Kottapalli fullname: Kottapalli, Sai Nikhilesh organization: Max Planck Institute for Intelligent Systems , 70569 Stuttgart, Germany – sequence: 4 givenname: Johannes surname: Sachs fullname: Sachs, Johannes organization: Max Planck Institute for Intelligent Systems , 70569 Stuttgart, Germany – sequence: 5 givenname: Thomas surname: Sottmann fullname: Sottmann, Thomas organization: University of Stuttgart Institute of Physical Chemistry, 70569 Stuttgart, Germany – sequence: 6 givenname: Peer surname: Fischer fullname: Fischer, Peer organization: University of Stuttgart Institute of Physical Chemistry, 70569 Stuttgart, Germany
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Snippet	Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the past... Abstract Self-propelled particulate systems manifest certain collective behavior of living matter, which have been the subject of intense research over the...
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StartPage	93007
SubjectTerms	active colloids active dynamics Catalytic activity Diffusion coefficient Dynamics Illumination Nanoparticles Photon correlation spectroscopy Physics Ultraviolet radiation USAXS Velocity velocity fluctuations x-ray scattering XPCS
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Title	Emergent dynamics of light-induced active colloids probed by XPCS
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