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Hierarchically ordered porous transition metal compounds from one-pot type 3D printing approaches

Author

Listed:
  • Fei Yu

    (Cornell University
    Cornell University)

  • R. Paxton Thedford

    (Cornell University
    Cornell University)

  • Thomas A. Tartaglia

    (Cornell University)

  • Sejal S. Sheth

    (Cornell University)

  • Guillaume Freychet

    (Brookhaven National Laboratory
    Leti)

  • William R. T. Tait

    (Cornell University
    Cornell University)

  • Peter A. Beaucage

    (National Institute of Standards and Technology)

  • William L. Moore

    (Cornell University)

  • Yuanzhi Li

    (Boston University)

  • Jörg G. Werner

    (Boston University
    Boston University)

  • Julia Thom-Levy

    (Cornell University)

  • Sol M. Gruner

    (Cornell University)

  • R. Bruce Dover

    (Cornell University)

  • Ulrich B. Wiesner

    (Cornell University
    Cornell University
    Cornell University)

Abstract

Solution-based soft matter self-assembly (SA) promises unique material structures and properties from approaches including additive manufacturing/three-dimensional (3D) printing. The 3D printing of periodically ordered porous functional inorganic materials through SA unfolding during printing remains a major challenge, however, due to the often vastly different ordering kinetics of separate processes at different length scales. Here, we report a “one-pot” direct ink writing process to produce hierarchically porous transition metal nitrides and precursor oxides from block copolymer (BCP) SA. Heat treatment protocols identified in various environments enable mesostructure retention in the final crystalline materials with periodic lattices on three distinct length scales. Moreover, embedded printing enables the first BCP directed mesoporous non-self-supporting helical oxides and nitrides. Resulting nitrides are superconducting, with record nanoconfinement-induced upper critical fields correlated with BCP molar mass and record surface areas for compound superconductors. Results suggest scalable porous functional inorganic material formation approaches for applications including catalysis, sensing, and microelectronics.

Suggested Citation

  • Fei Yu & R. Paxton Thedford & Thomas A. Tartaglia & Sejal S. Sheth & Guillaume Freychet & William R. T. Tait & Peter A. Beaucage & William L. Moore & Yuanzhi Li & Jörg G. Werner & Julia Thom-Levy & So, 2025. "Hierarchically ordered porous transition metal compounds from one-pot type 3D printing approaches," Nature Communications, Nature, vol. 16(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62794-8
    DOI: 10.1038/s41467-025-62794-8
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    References listed on IDEAS

    as
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