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Spatially and optically tailored 3D printing for highly miniaturized and integrated microfluidics

Author

Listed:
  • Jose L. Sanchez Noriega

    (Brigham Young University)

  • Nicholas A. Chartrand

    (Brigham Young University)

  • Jonard Corpuz Valdoz

    (Brigham Young University)

  • Collin G. Cribbs

    (Brigham Young University)

  • Dallin A. Jacobs

    (Brigham Young University)

  • Daniel Poulson

    (Brigham Young University)

  • Matthew S. Viglione

    (Brigham Young University)

  • Adam T. Woolley

    (Brigham Young University)

  • Pam M. Ry

    (Brigham Young University)

  • Kenneth A. Christensen

    (Brigham Young University)

  • Gregory P. Nordin

    (Brigham Young University)

Abstract

Traditional 3D printing based on Digital Light Processing Stereolithography (DLP-SL) is unnecessarily limiting as applied to microfluidic device fabrication, especially for high-resolution features. This limitation is due primarily to inherent tradeoffs between layer thickness, exposure time, material strength, and optical penetration that can be impossible to satisfy for microfluidic features. We introduce a generalized 3D printing process that significantly expands the accessible spatially distributed optical dose parameter space to enable the fabrication of much higher resolution 3D components without increasing the resolution of the 3D printer. Here we demonstrate component miniaturization in conjunction with a high degree of integration, including 15 μm × 15 μm valves and a 2.2 mm × 1.1 mm 10-stage 2-fold serial diluter. These results illustrate our approach’s promise to enable highly functional and compact microfluidic devices for a wide variety of biomolecular applications.

Suggested Citation

  • Jose L. Sanchez Noriega & Nicholas A. Chartrand & Jonard Corpuz Valdoz & Collin G. Cribbs & Dallin A. Jacobs & Daniel Poulson & Matthew S. Viglione & Adam T. Woolley & Pam M. Ry & Kenneth A. Christens, 2021. "Spatially and optically tailored 3D printing for highly miniaturized and integrated microfluidics," Nature Communications, Nature, vol. 12(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25788-w
    DOI: 10.1038/s41467-021-25788-w
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    Cited by:

    1. Antony Orth & Daniel Webber & Yujie Zhang & Kathleen L. Sampson & Hendrick W. Haan & Thomas Lacelle & Rene Lam & Daphene Solis & Shyamaleeswari Dayanandan & Taylor Waddell & Tasha Lewis & Hayden K. Ta, 2023. "Deconvolution volumetric additive manufacturing," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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