Physics of microswimmers—single particle motion and collective behavior: a review

Elgeti, Jens; Winkler, Roland G.; Gompper, Gerhard

doi:10.1088/0034-4885/78/5/056601

Cited by 1,274 publications

(1,367 citation statements)

References 392 publications

(899 reference statements)

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“…Transport behavior of MPCD was well characterized by this study and others,59, 60, 61, 62, 63, 64, 65 and applied to a diverse set of problems 66, 67, 68, 69. including sperm motility and cooperation 46, 70, 71. In the MPCD simulations, the solvent dynamics was consisted of a streaming and a collision step, during which particles exchange momentum within a collision cell of linear dimension a (Figure S8, Supporting Information) 58, 62, 63.…”

Section: Methodsmentioning

confidence: 60%

“…In addition, our results have implications beyond human fertility including biodiversity and conservation of endangered or rare species. Moreover, the similarities in fluid physics of swimmers across different species,46 from bacteria to parasites, make these findings broadly applicable to other motile microorganisms. In fact, many such active swimmers across diverse biological systems have been an inspiration for the design of artificial micrometer‐scale flagellar systems including biohybrid microrobots,47, 48, 49, 50, 51, 52 and we also envision broad applications of our findings in areas such as medical diagnosis,53 biosensing,54 and targeted drug delivery 55…”

Section: Resultsmentioning

confidence: 94%

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Guidance and Self‐Sorting of Active Swimmers: 3D Periodic Arrays Increase Persistence Length of Human Sperm Selecting for the Fittest

et al. 2017

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Male infertility is a reproductive disease, and existing clinical solutions for this condition often involve long and cumbersome sperm sorting methods, including preprocessing and centrifugation‐based steps. These methods also fall short when sorting for sperm free of reactive oxygen species, DNA damage, and epigenetic aberrations. Although several microfluidic platforms exist, they suffer from structural complexities, i.e., pumps or chemoattractants, setting insurmountable barriers to clinical adoption. Inspired by the natural filter‐like capabilities of the female reproductive tract for sperm selection, a model‐driven design, featuring pillar arrays that efficiently and noninvasively isolate highly motile and morphologically normal sperm, with lower epigenetic global methylation, from raw semen, is presented. The Simple Periodic ARray for Trapping And isolatioN (SPARTAN) created here modulates the directional persistence of sperm, increasing the spatial separation between progressive and nonprogressive motile sperm populations within an unprecedentedly short 10 min assay time. With over 99% motility of sorted sperm, a 5‐fold improvement in morphology, 3‐fold increase in nuclear maturity, and 2–4‐fold enhancement in DNA integrity, SPARTAN offers to standardize sperm selection while eliminating operator‐to‐operator variations, centrifugation, and flow. SPARTAN can also be applied in other areas, including conservation ecology, breeding of farm animals, and design of flagellar microrobots for diagnostics.

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Section: Methodsmentioning

confidence: 60%

Section: Resultsmentioning

confidence: 94%

Guidance and Self‐Sorting of Active Swimmers: 3D Periodic Arrays Increase Persistence Length of Human Sperm Selecting for the Fittest

et al. 2017

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“…Often collections of active particles are observed to form dynamic clusters, segregate into low and high density domains, and evolve into other inhomogeneous states not seen in equilibrium systems 20, 21, 22, 23, 24. Simple active Brownian particle models are able to capture some aspects of this dynamics 50, 51, 52, 53, 54…”

Section: Resultsmentioning

confidence: 99%

“…Alternatively, external fields8, 11, 12, 13, 14, 15 and interactions with surfaces16, 17, 18, 19 have also been proposed as ways to control motor motion. When many motors interact with each other, phenomena such as dynamic clustering, swarming and active phase segregation are observed 20, 21, 22, 23, 24. These features have stimulated research on the design and properties of motors that is aimed at potential applications 5, 12, 25, 26, 27, 28, 29, 30, 31…”

Section: Introductionmentioning

confidence: 99%

Chemically Propelled Motors Navigate Chemical Patterns

Chen

Kapral

2018

Advanced Science

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Very small synthetic motors that use chemical reactions to drive their motion are being studied widely because of their potential applications, which often involve active transport and dynamics on nanoscales. Like biological molecular machines, they must be able to perform their tasks in complex, highly fluctuating environments that can form chemical patterns with diverse structures. Motors in such systems can actively assemble into dynamic clusters and other unique nonequilibrium states. It is shown how chemical patterns with small characteristic dimensions may be utilized to suppress rotational Brownian motions of motors and guide them to move along prescribed paths, properties that can be exploited in applications. In systems with larger pattern length scales, domains can serve as catch basins for motors through chemotactic effects. The resulting collective motor dynamics in such confining domains can be used to explore new aspects of active particle collective dynamics or promote specific types of active self‐assembly. More generally, when chemically self‐propelled motors operate in far‐from‐equilibrium active chemical media the variety of possible phenomena and the scope of their potential applications are substantially increased.

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“…We focus specifically on spherical Janus colloids of the type shown in Figure 1 . This type of swimming device has been found to display a wide range of interesting colloidal phenomena, including autonomous guidance effects (gravitaxis,16 chemotaxis,17 and boundary steering),18 and has also been the subject of many currently untested theoretical proposals for high volume fraction collective phenomena 19. An advantage of Janus spheres as a system to explore emergent behavior is that they move without issuing bubbles and so their interactions via chemical “wakes” and hydrodynamics are amenable to being analyzed and experimentally observed, whereas nanotubes produce considerable convective flow due to bubble release 20.…”

Section: Introductionmentioning

confidence: 99%

A Pickering Emulsion Route to Swimming Active Janus Colloids

et al. 2017

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The field of active colloids is attracting significant interest to both enable applications and allow investigations of new collective colloidal phenomena. One convenient active colloidal system that has been much studied is spherical Janus particles, where a hemispherical coating of platinum decomposes hydrogen peroxide to produce rapid motion. However, at present producing these active colloids relies on a physical vapor deposition (PVD) process, which is difficult to scale and requires access to expensive equipment. In this work, it is demonstrated that Pickering emulsion masking combined with solution phase metallization can produce self‐motile catalytic Janus particles. Comparison of the motion and catalytic activity with PVD colloids reveals a higher catalytic activity for a given thickness of platinum due to the particulate nature of the deposited coating. This Pickering emulsion based method will assist in producing active colloids for future applications and aid experimental research into a wide range of active colloid phenomena.

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Physics of microswimmers—single particle motion and collective behavior: a review

Cited by 1,274 publications

References 392 publications

Guidance and Self‐Sorting of Active Swimmers: 3D Periodic Arrays Increase Persistence Length of Human Sperm Selecting for the Fittest

Guidance and Self‐Sorting of Active Swimmers: 3D Periodic Arrays Increase Persistence Length of Human Sperm Selecting for the Fittest

Chemically Propelled Motors Navigate Chemical Patterns

A Pickering Emulsion Route to Swimming Active Janus Colloids

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