Florian von Rüling scite author profile

Florian von Rüling

5Publications

10Citation Statements Received

108Citation Statements Given

How they've been cited

How they cite others

177

Affiliations

Otto-von-Guericke University Magdeburg

Publications

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Diffusive dynamics of elongated particles in active colloidal suspensions of motile algae

2020

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Swimming microorganisms can influence the diffusion of passive particles. The effect of this swimmer-particle interaction depends on different properties, such as the hydrodynamic field of the swimmer and the relative sizes of microorganisms and particles. We investigated an enhancement of the diffusion of silica doublets in a suspension of microalgae Chlamydomonas reinhardtii in a flat capillary. Depending on the concentration of microswimmers, the translational and rotational diffusion constants increase by several orders of magnitude in the presence of the swimming algae. For low concentrations of algae, the doublets exhibit Brownian motion in a fluctuating flow field generated by multiple swimmers. One can observe strong, diffusive transport caused by occasional large displacements. At high swimmer concentration, the algae form dense clusters, where the rotational motion of the doublets shows a subdiffusive behaviour while the translational motion remains diffusive.

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Segregation of granular mixtures in a spherical tumbler

et al. 2016

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Segregation of polydisperse granular materials in rotating containers is a ubiquitous but still not satisfactorily understood phenomenon. This study describes axial segregation of bidisperse granular mixtures of glass beads in a spherical container, rotating about its horizontal axis. Depending on the filling fraction of the mixer and on the composition of the mixture, qualitatively different spontaneously formed patterns are observed. For technical applications, the well-localized segregated bands allow a convenient separation of individual components of the mixtures. It is particularly surprising that the initial compositions of the granular mixtures have a fundamental influence on the location of the segregated bands. This evidences a collective pattern forming mechanism. The spontaneous formation of these bands cannot simply be traced back to individual particle dynamics. Existing models for segregation in spherical mixers are critically examined and extensions are suggested.

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Effects of cell excitation on photosynthetic electron flow and intercellular transport in Chara

et al. 2022

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Intercellular permeation and cyclosis-mediated transport of a fluorescent probe in Characeae

Rüling

Alova

Булычев

et al. 2023

Biophysical Journal

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Diffusive dynamics of elongated particles in active colloidal suspensions of motile algae

Rüling¹,

Kolley²,

Eremin³

2020

Preprint

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