Literature DB >> 25104979

Passive micromixer using by convection and surface tension effects with air-liquid interface.

Jongil Ju1, Jay Warrick2.   

Abstract

This article describes a passive micromixer that utilizes an air-liquid interface and surface tension effects to enhance fluid mixing via convection and Marangoni effects. Performance of the microfluidic component is tested within a passive-pumping-based device that consists of three microchannels connected in succession using passive micro-mixers. Mixing was quantified at 5 key points along the length of the device using microscope images of patterned streams of Alexa 488 fluorescent-dyed water and pure DI water flowing through the device. The passive micro-mixer mixed fluid 15-20 times more effectively than diffusion between laminar flow streams alone and is a novel micro-mixer embodiment that provides an additional strategy for removing external components from microscale devices for simpler, autonomous operation.

Entities:  

Keywords:  Autonomous operation; Convection and Marangoni effect; Passive micromixer; Surface tension

Year:  2013        PMID: 25104979      PMCID: PMC4120973          DOI: 10.1007/s13206-013-7407-1

Source DB:  PubMed          Journal:  Biochip J        ISSN: 1976-0280            Impact factor:   3.494


  11 in total

1.  Chaotic mixer for microchannels.

Authors:  Abraham D Stroock; Stephan K W Dertinger; Armand Ajdari; Igor Mezic; Howard A Stone; George M Whitesides
Journal:  Science       Date:  2002-01-25       Impact factor: 47.728

2.  Electrokinetic instability micromixing.

Authors:  M H Oddy; J G Santiago; J C Mikkelsen
Journal:  Anal Chem       Date:  2001-12-15       Impact factor: 6.986

3.  Microfabricated devices for fluid mixing and their application for chemical synthesis.

Authors:  M Kakuta; F G Bessoth; A Manz
Journal:  Chem Rec       Date:  2001       Impact factor: 6.771

4.  Applied physics. Designing optimal micromixers.

Authors:  Julio M Ottino; Stephen Wiggins
Journal:  Science       Date:  2004-07-23       Impact factor: 47.728

5.  A novel in-plane passive microfluidic mixer with modified Tesla structures.

Authors:  Chien-Chong Hong; Jin-Woo Choi; Chong H Ahn
Journal:  Lab Chip       Date:  2004-02-10       Impact factor: 6.799

6.  Electrowetting-based droplet mixers for microfluidic systems.

Authors:  Phil Paik; Vamsee K Pamula; Michael G Pollack; Richard B Fair
Journal:  Lab Chip       Date:  2003-02-03       Impact factor: 6.799

7.  Rapid droplet mixers for digital microfluidic systems.

Authors:  Phil Paik; Vamsee K Pamula; Richard B Fair
Journal:  Lab Chip       Date:  2003-09-12       Impact factor: 6.799

8.  Fluid mixing in planar spiral microchannels.

Authors:  Arjun P Sudarsan; Victor M Ugaz
Journal:  Lab Chip       Date:  2005-11-10       Impact factor: 6.799

9.  Rapid Prototyping of Microfluidic Systems in Poly(dimethylsiloxane).

Authors:  D C Duffy; J C McDonald; O J Schueller; G M Whitesides
Journal:  Anal Chem       Date:  1998-12-01       Impact factor: 6.986

10.  A Cell Programmable Assay (CPA) chip.

Authors:  Jongil Ju; Jay Warrick; David J Beebe
Journal:  Lab Chip       Date:  2010-07-08       Impact factor: 6.799
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  3 in total

1.  Rapid, Self-driven Liquid Mixing on Open-Surface Microfluidic Platforms.

Authors:  Jared M Morrissette; Pallab Sinha Mahapatra; Aritra Ghosh; Ranjan Ganguly; Constantine M Megaridis
Journal:  Sci Rep       Date:  2017-05-11       Impact factor: 4.379

2.  Fundamental Studies of Rapidly Fabricated On-Chip Passive Micromixer for Modular Microfluidics.

Authors:  Wenpeng Guo; Li Tang; Biqiang Zhou; Yingsing Fung
Journal:  Micromachines (Basel)       Date:  2021-02-04       Impact factor: 2.891

3.  Adaptive Micromixer Based on the Solutocapillary Marangoni Effect in a Continuous-Flow Microreactor.

Authors:  Dmitry Bratsun; Konstantin Kostarev; Alexey Mizev; Sebastian Aland; Marcel Mokbel; Karin Schwarzenberger; Kerstin Eckert
Journal:  Micromachines (Basel)       Date:  2018-11-16       Impact factor: 2.891
  3 in total

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