Literature DB >> 34263346

3D-printed microchip electrophoresis device containing spiral electrodes for integrated capacitively coupled contactless conductivity detection.

Brenda M C Costa1, Aline G Coelho1, Michael J Beauchamp2, Jacob B Nielsen2, Gregory P Nordin3, Adam T Woolley2, José A F da Silva4,5.   

Abstract

In this work, we demonstrate for the first time the design and fabrication of microchip electrophoresis devices containing cross-shaped channels and spiral electrodes around the separation channel for microchip electrophoresis and capacitively coupled contactless conductivity detection. The whole device was prepared in a digital light processing-based 3D printer in poly(ethylene glycol) diacrylate resin. Outstanding X-Y resolution of the customized 3D printer ensured the fabrication of 40-μm cross section channels. The spiral channels were filled with melted gallium to form conductive electrodes around the separation channel. We demonstrate the applicability of the device on the separation of sodium, potassium, and lithium cations by microchip electrophoresis. Graphical abstract.
© 2021. Springer-Verlag GmbH Germany, part of Springer Nature.

Entities:  

Keywords:  3D printing; Liquid metal electrodes; Microchip electrophoresis

Year:  2021        PMID: 34263346      PMCID: PMC8748415          DOI: 10.1007/s00216-021-03494-2

Source DB:  PubMed          Journal:  Anal Bioanal Chem        ISSN: 1618-2642            Impact factor:   4.142


  18 in total

1.  Moving from millifluidic to truly microfluidic sub-100-μm cross-section 3D printed devices.

Authors:  Michael J Beauchamp; Gregory P Nordin; Adam T Woolley
Journal:  Anal Bioanal Chem       Date:  2017-06-13       Impact factor: 4.142

2.  Liquid metal enabled microfluidics.

Authors:  Khashayar Khoshmanesh; Shi-Yang Tang; Jiu Yang Zhu; Samira Schaefer; Arnan Mitchell; Kourosh Kalantar-Zadeh; Michael D Dickey
Journal:  Lab Chip       Date:  2017-03-14       Impact factor: 6.799

3.  Lab-on-a-Chip device with laser-patterned polymer electrodes for high voltage application and contactless conductivity detection.

Authors:  Rowan D Henderson; Rosanne M Guijt; Lee Andrewartha; Trevor W Lewis; Thomas Rodemann; Alan Henderson; Emily F Hilder; Paul R Haddad; Michael C Breadmore
Journal:  Chem Commun (Camb)       Date:  2012-08-09       Impact factor: 6.222

4.  High density 3D printed microfluidic valves, pumps, and multiplexers.

Authors:  Hua Gong; Adam T Woolley; Gregory P Nordin
Journal:  Lab Chip       Date:  2016-05-31       Impact factor: 6.799

Review 5.  3D printed microfluidic devices: enablers and barriers.

Authors:  Sidra Waheed; Joan M Cabot; Niall P Macdonald; Trevor Lewis; Rosanne M Guijt; Brett Paull; Michael C Breadmore
Journal:  Lab Chip       Date:  2016-05-24       Impact factor: 6.799

6.  Comparing Microfluidic Performance of Three-Dimensional (3D) Printing Platforms.

Authors:  Niall P Macdonald; Joan M Cabot; Petr Smejkal; Rosanne M Guijt; Brett Paull; Michael C Breadmore
Journal:  Anal Chem       Date:  2017-03-24       Impact factor: 6.986

7.  3D printed high density, reversible, chip-to-chip microfluidic interconnects.

Authors:  Hua Gong; Adam T Woolley; Gregory P Nordin
Journal:  Lab Chip       Date:  2018-02-13       Impact factor: 6.799

8.  Custom 3D printer and resin for 18 μm × 20 μm microfluidic flow channels.

Authors:  Hua Gong; Bryce P Bickham; Adam T Woolley; Gregory P Nordin
Journal:  Lab Chip       Date:  2017-08-22       Impact factor: 6.799

9.  3D Printed Microfluidic Devices for Microchip Electrophoresis of Preterm Birth Biomarkers.

Authors:  Michael J Beauchamp; Anna V Nielsen; Hua Gong; Gregory P Nordin; Adam T Woolley
Journal:  Anal Chem       Date:  2019-05-14       Impact factor: 6.986
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  3 in total

1.  3D-printed electrochemical platform with multi-purpose carbon black sensing electrodes.

Authors:  Habdias A Silva-Neto; Anderson A Dias; Wendell K T Coltro
Journal:  Mikrochim Acta       Date:  2022-05-28       Impact factor: 6.408

2.  PolyJet-Based 3D Printing against Micromolds to Produce Channel Structures for Microchip Electrophoresis.

Authors:  Major A Selemani; Andre D Castiaux; R Scott Martin
Journal:  ACS Omega       Date:  2022-04-08

3.  Immunoaffinity monoliths for multiplexed extraction of preterm birth biomarkers from human blood serum in 3D printed microfluidic devices.

Authors:  Haifa M Almughamsi; Makella K Howell; Samuel R Parry; Joule E Esene; Jacob B Nielsen; Gregory P Nordin; Adam T Woolley
Journal:  Analyst       Date:  2022-02-14       Impact factor: 4.616
  3 in total

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