4.6 Article Proceedings Paper

Stereolithography based 3D-printed microfluidic device with integrated electrochemical detection

Journal

ELECTROCHIMICA ACTA
Volume 407, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.electacta.2022.139888

Keywords

3D-printing; Microfluidic device; Electrochemical detection; Carbon-based electrodes

Funding

  1. Brazilian Federal Agency for Support and Evaluationof Graduate Education (CAPES)
  2. French Committee for the Evaluation of Academic and Scientific Cooperation with Brazil (COFECUB) [Ph C 952/19]
  3. Centre national de la recherche scientifique (CNRS)
  4. Institut Pierre-Gilles de Gennes(Laboratoire d'excellence) [ANR-10-LABX-31, ANR-10-IDEX-0001-02 PSL, ANR-10EQPX-34]

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We demonstrate the concept of a reusable 3D printed separation device with integrated electrodes for electrochemical detection. The device was optimized for easy and low-cost fabrication and showed good repeatability and linear response in the tested concentration range.
We demonstrate for the first time the conception of a reusable stereolithography (SLA) based 3D printed separation device with integrated electrodes for electrochemical (EC) detection. For this purpose, a new lab-made working electrode (WE) was developed by 3D-printing a side wall microchannel along the separation microchannel and by inserting a graphite/ resin (C/resin) composite within this side wall microchannel. The 3D-printing conditions of the electrochemical microfluidic device (EMD) as well as the electrode composition, geometry, and integration were optimized for easy and low-cost fabrication (no need for a clean room) and suitable electrochemical response. The electrochemical characterization of the material formulation was first performed in bulk format (disk-shaped, 2 mm diameter) and then moved to the micrometric scale reaching electrode width of 172 +/- 12 mu m. The integrated electrodes were characterised by voltammetry, and the response linearity of the transducer material was investigated by square wave voltammetry (SWV) using ferrocene methanol (FcMeOH). The C/resin electrode led to a good repeatability (RSD of +/- 2% (n = 3) in the peak current values), linear response (R-2 = 0.995) in the 15 - 1000 mu M range, allowing for limits of detection and quantification of 4.5 mu M and 15 mu M, respectively. In order to develop a complex analytical device, the interest of this dedicated device was evidenced in a hydrodynamic state condition with Ru(NH3)(6)(3+) as a proof-of-concept, ranging from 0 to 55 mu L min(-1) mimicking the electroosmotic flow conditions, which is a bulk liquid motion very common in electrically driven separation techniques. (c) 2022 Elsevier Ltd. All rights reserved.

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