Functional hydrogel structures for autonomous flow control inside microfluidic channels
Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered by slow response times (diffusion being the rate-limiting factor governing the swelling process). However, there are many natural examples of chemically driven actuation that...
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| Published in | Nature (London) Vol. 404; no. 6778; pp. 588 - 590 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing
06.04.2000
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered
by slow response times (diffusion being the rate-limiting factor governing
the swelling process). However, there are many natural examples of chemically
driven actuation that rely on short diffusion paths to produce a rapid response. It is therefore expected that scaling down hydrogel objects to
the micrometre scale should greatly improve response times. At these scales,
stimuli-responsive hydrogels could enhance the capabilities of microfluidic
systems by allowing self-regulated flow control. Here we report the fabrication
of active hydrogel components inside microchannels via direct photopatterning
of a liquid phase. Our approach greatly simplifies system construction and
assembly as the functional components are fabricated in situ, and the
stimuli-responsive hydrogel components perform both sensing and actuation
functions. We demonstrate significantly improved response times (less than
10 seconds) in hydrogel valves capable of autonomous control of local flow. |
|---|---|
| AbstractList | Here we report the fabrication of active hydrogel components inside microchannels via direct photopatterning of a liquid phase. Our approach greatly simplifies system construction and assembly as the functional components are fabricated in situ, and the stimuli-responsive hydrogel components perform both sensing and actuation functions. Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered by slow response times (diffusion being the rate-limiting factor governing the swelling process). However, there are many natural examples of chemically driven actuation that rely on short diffusion paths to produce a rapid response. It is therefore expected that scaling down hydrogel objects to the micrometre scale should greatly improve response times. At these scales, stimuli-responsive hydrogels could enhance the capabilities of microfluidic systems by allowing self-regulated flow control. Here we report the fabrication of active hydrogel components inside microchannels via direct photopatterning of a liquid phase. Our approach greatly simplifies system construction and assembly as the functional components are fabricated in situ, and the stimuli-responsive hydrogel components perform both sensing and actuation functions. We demonstrate significantly improved response times (less than 10 seconds) in hydrogel valves capable of autonomous control of local flow. Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered by slow response times (diffusion being the rate-limiting factor governing the swelling process). Here we report the fabrication of active hydrogel components inside microchannels via direct photopatterning of a liquid phase. Our approach greatly simplifies system construction and assembly as the functional components are fabricated in situ, and the stimuli-responsive hydrogel components perform both sensing and actuation functions. We demonstrate significantly improved response times (less than 10 s) in hydrogel valves capable of autonomous control of local flow. (Author) Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered by slow response times (diffusion being the rate-limiting factor governing the swelling process). However, there are many natural examples of chemically driven actuation that rely on short diffusion paths to produce a rapid response. It is therefore expected that scaling down hydrogel objects to the micrometre scale should greatly improve response times. At these scales, stimuli-responsive hydrogels could enhance the capabilities of microfluidic systems by allowing self-regulated flow control. Here we report the fabrication of active hydrogel components inside microchannels via direct photopatterning of a liquid phase. Our approach greatly simplifies system construction and assembly as the functional components are fabricated in situ, and the stimuli-responsive hydrogel components perform both sensing and actuation functions. We demonstrate significantly improved response times (less than 10 seconds) in hydrogel valves capable of autonomous control of local flow. |
| Audience | Academic |
| Author | Bauer, Joseph M Yu, Qing Moore, Jeffrey S Devadoss, Chelladurai Jo, Byung-Ho Liu, Robin H Beebe, David J |
| Author_xml | – sequence: 1 givenname: David J surname: Beebe fullname: Beebe, David J organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign Department of Biomedical Engineering, University of Wisconsin-Madison – sequence: 2 givenname: Jeffrey S surname: Moore fullname: Moore, Jeffrey S organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign – sequence: 3 givenname: Joseph M surname: Bauer fullname: Bauer, Joseph M organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign – sequence: 4 givenname: Qing surname: Yu fullname: Yu, Qing organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign – sequence: 5 givenname: Robin H surname: Liu fullname: Liu, Robin H organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign – sequence: 6 givenname: Chelladurai surname: Devadoss fullname: Devadoss, Chelladurai organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign – sequence: 7 givenname: Byung-Ho surname: Jo fullname: Jo, Byung-Ho organization: The Beckman Institute for Advanced Science and Technology, University of Illinois at Urbana-Champaign |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=1316992$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/10766238$$D View this record in MEDLINE/PubMed |
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| CODEN | NATUAS |
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| Copyright | 2000 INIST-CNRS COPYRIGHT 2000 Nature Publishing Group Copyright Macmillan Journals Ltd. Apr 6, 2000 |
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| Keywords | Fabrication Autonomous system Actuators Flow control Hydrogel Microstructure Fluidics |
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| References_xml | – year: 1998 ident: b8 article-title: Micromachined Transducers Sourcebook contributor: fullname: Kovacs, G. T. A. – volume: 268 start-page: 1735 year: 1995 end-page: 1738 ident: b10 publication-title: Science contributor: fullname: Lundström , I. – volume: 218 start-page: 467 year: 1982 end-page: 469 ident: b3 publication-title: Science contributor: fullname: Ueno-Nishio, S. – volume: 346 start-page: 345 year: 1990 end-page: 347 ident: b4 publication-title: Nature contributor: fullname: Tanaka, T. – volume: 9 start-page: 76 year: 1999 end-page: 81 ident: b15 publication-title: J. Micromech. Syst. contributor: fullname: Beebe, D. J. – volume: 45 start-page: 1636 year: 1980 end-page: 1639 ident: b1 publication-title: Phys. Rev. Lett. contributor: fullname: Tanaka, T. – volume: 280 start-page: 2089 year: 1998 end-page: 2091 ident: b12 publication-title: Science contributor: fullname: Whitesides, G. M. – volume: 284 start-page: 948 year: 1999 end-page: 951 ident: b11 publication-title: Science contributor: fullname: Witesides, G. M. – volume: 399 start-page: 766 year: 1999 end-page: 769 ident: b6 publication-title: Nature contributor: fullname: Uragami, T. – volume: 120 start-page: 12694 year: 1998 end-page: 12695 ident: b5 publication-title: J. Am. Chem. Soc. contributor: fullname: Sakurai, Y. – volume: 269 start-page: 525 year: 1995 end-page: 527 ident: b2 publication-title: Science contributor: fullname: Li, Y. – volume: 398 start-page: 51 year: 1999 end-page: 54 ident: b14 publication-title: Nature contributor: fullname: Cumpston, B. H. – volume: 19 start-page: 267 year: 1988 end-page: 287 ident: b9 publication-title: Sensors Actuators contributor: fullname: Trimmer, W. S. N. – volume: 285 start-page: 83 year: 1999 end-page: 85 ident: b13 publication-title: Science contributor: fullname: Whitesides, G. M. – year: 1975 ident: b7 article-title: Animal Physiology contributor: fullname: Schmidt-Nielsen, K. – volume: 399 start-page: 766 year: 1999 ident: BF35007047_CR6 publication-title: Nature doi: 10.1038/21619 contributor: fullname: T Miyata – volume-title: Animal Physiology year: 1975 ident: BF35007047_CR7 contributor: fullname: K Schmidt-Nielsen – volume: 268 start-page: 1735 year: 1995 ident: BF35007047_CR10 publication-title: Science doi: 10.1126/science.268.5218.1735 contributor: fullname: E Smela – volume: 284 start-page: 948 year: 1999 ident: BF35007047_CR11 publication-title: Science doi: 10.1126/science.284.5416.948 contributor: fullname: T Breen – volume: 346 start-page: 345 year: 1990 ident: BF35007047_CR4 publication-title: Nature doi: 10.1038/346345a0 contributor: fullname: A Suzuki – volume: 9 start-page: 76 year: 1999 ident: BF35007047_CR15 publication-title: J. Micromech. Syst. doi: 10.1109/84.825780 contributor: fullname: B-H Jo – volume-title: Micromachined Transducers Sourcebook year: 1998 ident: BF35007047_CR8 contributor: fullname: GTA Kovacs – volume: 269 start-page: 525 year: 1995 ident: BF35007047_CR2 publication-title: Science doi: 10.1126/science.269.5223.525 contributor: fullname: Z Hu – volume: 398 start-page: 51 year: 1999 ident: BF35007047_CR14 publication-title: Nature doi: 10.1038/17989 contributor: fullname: BH Cumpston – volume: 218 start-page: 467 year: 1982 ident: BF35007047_CR3 publication-title: Science doi: 10.1126/science.218.4571.467 contributor: fullname: T Tanaka – volume: 280 start-page: 2089 year: 1998 ident: BF35007047_CR12 publication-title: Science doi: 10.1126/science.280.5372.2089 contributor: fullname: RJ Jackman – volume: 45 start-page: 1636 year: 1980 ident: BF35007047_CR1 publication-title: Phys. Rev. Lett. doi: 10.1103/PhysRevLett.45.1636 contributor: fullname: T Tanaka – volume: 285 start-page: 83 year: 1999 ident: BF35007047_CR13 publication-title: Science doi: 10.1126/science.285.5424.83 contributor: fullname: PJ Kenis – volume: 19 start-page: 267 year: 1988 ident: BF35007047_CR9 publication-title: Sensors Actuators doi: 10.1016/0250-6874(89)87079-9 contributor: fullname: WSN Trimmer – volume: 120 start-page: 12694 year: 1998 ident: BF35007047_CR5 publication-title: J. Am. Chem. Soc. doi: 10.1021/ja982975d contributor: fullname: K Kataoka |
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| Snippet | Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered
by slow response times (diffusion... Hydrogels have been developed to respond to a wide variety of stimuli, but their use in macroscopic systems has been hindered by slow response times (diffusion... Here we report the fabrication of active hydrogel components inside microchannels via direct photopatterning of a liquid phase. Our approach greatly simplifies... |
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| SubjectTerms | Applied fluid mechanics Exact sciences and technology Fabrication Flow control Fluid dynamics Fluidics Fundamental areas of phenomenology (including applications) Nanotechnology Physics Polymers Regulated flow |
| Title | Functional hydrogel structures for autonomous flow control inside microfluidic channels |
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