Microscale hydrodynamic confinements: shaping liquids across length scales as a toolbox in life sciences

Hydrodynamic phenomena can be leveraged to confine a range of biological and chemical species without needing physical walls. In this review, we list methods for the generation and manipulation of microfluidic hydrodynamic confinements in free-flowing liquids and near surfaces, and elucidate the ass...

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Published inLab on a chip Vol. 22; no. 8; pp. 1415 - 1437
Main Authors Taylor, David P, Mathur, Prerit, Renaud, Philippe, Kaigala, Govind V
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 12.04.2022
Subjects
Bioengineering
Biological Science Disciplines
Boundary conditions
Hydrodynamics
Life sciences
Liquids
Microfluidic Analytical Techniques - methods
Microfluidics
Microfluidics - methods
Multiplexing
Parallel plates
Software
Three dimensional printing
Online AccessGet full text

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Abstract Hydrodynamic phenomena can be leveraged to confine a range of biological and chemical species without needing physical walls. In this review, we list methods for the generation and manipulation of microfluidic hydrodynamic confinements in free-flowing liquids and near surfaces, and elucidate the associated underlying theory and discuss their utility in the emerging area of open space microfluidics applied to life-sciences. Microscale hydrodynamic confinements are already starting to transform approaches in fundamental and applied life-sciences research from precise separation and sorting of individual cells, allowing localized bio-printing to multiplexing for clinical diagnosis. Through the choice of specific flow regimes and geometrical boundary conditions, hydrodynamic confinements can confine species across different length scales from small molecules to large cells, and thus be applied to a wide range of functionalities. We here provide practical examples and implementations for the formation of these confinements in different boundary conditions - within closed channels, in between parallel plates and in an open liquid volume. Further, to enable non-microfluidics researchers to apply hydrodynamic flow confinements in their work, we provide simplified instructions pertaining to their design and modelling, as well as to the formation of hydrodynamic flow confinements in the form of step-by-step tutorials and analytical toolbox software. This review is written with the idea to lower the barrier towards the use of hydrodynamic flow confinements in life sciences research. A review-tutorial focusing on applications and theory behind hydrodynamic confinements (HFCs) across flow regimes and geometries - in closed channels, between parallel plates and in open volume. A further focus on chemical reactions enabled by HFCs.
AbstractList Hydrodynamic phenomena can be leveraged to confine a range of biological and chemical species without needing physical walls. In this review, we list methods for the generation and manipulation of microfluidic hydrodynamic confinements in free-flowing liquids and near surfaces, and elucidate the associated underlying theory and discuss their utility in the emerging area of open space microfluidics applied to life-sciences. Microscale hydrodynamic confinements are already starting to transform approaches in fundamental and applied life-sciences research from precise separation and sorting of individual cells, allowing localized bio-printing to multiplexing for clinical diagnosis. Through the choice of specific flow regimes and geometrical boundary conditions, hydrodynamic confinements can confine species across different length scales from small molecules to large cells, and thus be applied to a wide range of functionalities. We here provide practical examples and implementations for the formation of these confinements in different boundary conditions - within closed channels, in between parallel plates and in an open liquid volume. Further, to enable non-microfluidics researchers to apply hydrodynamic flow confinements in their work, we provide simplified instructions pertaining to their design and modelling, as well as to the formation of hydrodynamic flow confinements in the form of step-by-step tutorials and analytical toolbox software. This review is written with the idea to lower the barrier towards the use of hydrodynamic flow confinements in life sciences research.
Hydrodynamic phenomena can be leveraged to confine a range of biological and chemical species without needing physical walls. In this review, we list methods for the generation and manipulation of microfluidic hydrodynamic confinements in free-flowing liquids and near surfaces, and elucidate the associated underlying theory and discuss their utility in the emerging area of open space microfluidics applied to life-sciences. Microscale hydrodynamic confinements are already starting to transform approaches in fundamental and applied life-sciences research from precise separation and sorting of individual cells, allowing localized bio-printing to multiplexing for clinical diagnosis. Through the choice of specific flow regimes and geometrical boundary conditions, hydrodynamic confinements can confine species across different length scales from small molecules to large cells, and thus be applied to a wide range of functionalities. We here provide practical examples and implementations for the formation of these confinements in different boundary conditions - within closed channels, in between parallel plates and in an open liquid volume. Further, to enable non-microfluidics researchers to apply hydrodynamic flow confinements in their work, we provide simplified instructions pertaining to their design and modelling, as well as to the formation of hydrodynamic flow confinements in the form of step-by-step tutorials and analytical toolbox software. This review is written with the idea to lower the barrier towards the use of hydrodynamic flow confinements in life sciences research. A review-tutorial focusing on applications and theory behind hydrodynamic confinements (HFCs) across flow regimes and geometries - in closed channels, between parallel plates and in open volume. A further focus on chemical reactions enabled by HFCs.
Author Taylor, David P
Mathur, Prerit
Kaigala, Govind V
Renaud, Philippe
AuthorAffiliation Dept. of Chemistry and Applied Biosciences
Microsystems Laboratory 4
École Polytechnique Fédérale de Lausanne (EPFL)
Eidgenössische Technische Hochschule (ETH)
IBM Research - Europe
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/35348555$$D View this record in MEDLINE/PubMed
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Snippet Hydrodynamic phenomena can be leveraged to confine a range of biological and chemical species without needing physical walls. In this review, we list methods...
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SubjectTerms Bioengineering
Biological Science Disciplines
Boundary conditions
Hydrodynamics
Life sciences
Liquids
Microfluidic Analytical Techniques - methods
Microfluidics
Microfluidics - methods
Multiplexing
Parallel plates
Software
Three dimensional printing
Title Microscale hydrodynamic confinements: shaping liquids across length scales as a toolbox in life sciences
URI https://www.ncbi.nlm.nih.gov/pubmed/35348555
https://www.proquest.com/docview/2649242863
https://search.proquest.com/docview/2644941955
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