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A new method to position and functionalize metal-organic framework crystals

Author

Listed:
  • Paolo Falcaro

    (CSIRO)

  • Anita J. Hill

    (CSIRO)

  • Kate M. Nairn

    (CSIRO)

  • Jacek Jasieniak

    (CSIRO)

  • James I. Mardel

    (CSIRO)

  • Timothy J. Bastow

    (CSIRO)

  • Sheridan C. Mayo

    (CSIRO)

  • Michele Gimona

    (CSIRO)

  • Daniel Gomez

    (CSIRO)

  • Harold J. Whitfield

    (CSIRO)

  • Raffaele Riccò

    (Associazione CIVEN, Via delle Industrie 5)

  • Alessandro Patelli

    (Associazione CIVEN, Via delle Industrie 5)

  • Benedetta Marmiroli

    (Institute of Biophysics and Nanosystems Research, Austrian Academy of Sciences, Schmiedlstraße 6, Graz 8042, Austria.)

  • Heinz Amenitsch

    (Institute of Biophysics and Nanosystems Research, Austrian Academy of Sciences, Schmiedlstraße 6, Graz 8042, Austria.)

  • Tobias Colson

    (School of Earth and Environment, The University of Western Australia, 35 Stirling Highway, Crawley, Perth 6009, Western Australia .)

  • Laura Villanova

    (School of Mathematical Sciences, Faculty of Science, Monash University)

  • Dario Buso

    (CSIRO
    Centre for Micro-Photonics and CUDOS, Faculty of Engineering and Industrial Sciences, Swinburne University of Technology)

Abstract

With controlled nanometre-sized pores and surface areas of thousands of square metres per gram, metal-organic frameworks (MOFs) may have an integral role in future catalysis, filtration and sensing applications. In general, for MOF-based device fabrication, well-organized or patterned MOF growth is required, and thus conventional synthetic routes are not suitable. Moreover, to expand their applicability, the introduction of additional functionality into MOFs is desirable. Here, we explore the use of nanostructured poly-hydrate zinc phosphate (α-hopeite) microparticles as nucleation seeds for MOFs that simultaneously address all these issues. Affording spatial control of nucleation and significantly accelerating MOF growth, these α-hopeite microparticles are found to act as nucleation agents both in solution and on solid surfaces. In addition, the introduction of functional nanoparticles (metallic, semiconducting, polymeric) into these nucleating seeds translates directly to the fabrication of functional MOFs suitable for molecular size-selective applications.

Suggested Citation

  • Paolo Falcaro & Anita J. Hill & Kate M. Nairn & Jacek Jasieniak & James I. Mardel & Timothy J. Bastow & Sheridan C. Mayo & Michele Gimona & Daniel Gomez & Harold J. Whitfield & Raffaele Riccò & Alessa, 2011. "A new method to position and functionalize metal-organic framework crystals," Nature Communications, Nature, vol. 2(1), pages 1-8, September.
    • Handle: RePEc:nat:natcom:v:2:y:2011:i:1:d:10.1038_ncomms1234
    DOI: 10.1038/ncomms1234
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    Cited by:

    1. Xiaoli Tian & Fu Li & Zhenyuan Tang & Song Wang & Kangkang Weng & Dan Liu & Shaoyong Lu & Wangyu Liu & Zhong Fu & Wenjun Li & Hengwei Qiu & Min Tu & Hao Zhang & Jinghong Li, 2024. "Crosslinking-induced patterning of MOFs by direct photo- and electron-beam lithography," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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