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Precise tuning of interlayer electronic coupling in layered conductive metal-organic frameworks

Author

Listed:
  • Yang Lu

    (Technische Universität Dresden)

  • Yingying Zhang

    (Technische Universität Dresden)

  • Chi-Yuan Yang

    (Linköping University)

  • Sergio Revuelta

    (Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA Nanociencia))

  • Haoyuan Qi

    (Technische Universität Dresden
    Universität Ulm)

  • Chuanhui Huang

    (Technische Universität Dresden)

  • Wenlong Jin

    (Linköping University)

  • Zichao Li

    (Helmholtz-Zentrum Dresden-Rossendorf)

  • Victor Vega-Mayoral

    (Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA Nanociencia))

  • Yannan Liu

    (Technische Universität Dresden)

  • Xing Huang

    (Technische Universität Dresden)

  • Darius Pohl

    (Technische Universität Dresden)

  • Miroslav Položij

    (Technische Universität Dresden)

  • Shengqiang Zhou

    (Helmholtz-Zentrum Dresden-Rossendorf)

  • Enrique Cánovas

    (Instituto Madrileño de Estudios Avanzados en Nanociencia (IMDEA Nanociencia))

  • Thomas Heine

    (Technische Universität Dresden)

  • Simone Fabiano

    (Linköping University)

  • Xinliang Feng

    (Technische Universität Dresden
    Max Planck Institute of Microstructure Physics)

  • Renhao Dong

    (Technische Universität Dresden
    Shandong University)

Abstract

Two-dimensional conjugated metal-organic frameworks (2D c-MOFs) have attracted increasing interests for (opto)-electronics and spintronics. They generally consist of van der Waals stacked layers and exhibit layer-depended electronic properties. While considerable efforts have been made to regulate the charge transport within a layer, precise control of electronic coupling between layers has not yet been achieved. Herein, we report a strategy to precisely tune interlayer charge transport in 2D c-MOFs via side-chain induced control of the layer spacing. We design hexaiminotriindole ligands allowing programmed functionalization with tailored alkyl chains (HATI_CX, X = 1,3,4; X refers to the carbon numbers of the alkyl chains) for the synthesis of semiconducting Ni3(HATI_CX)2. The layer spacing of these MOFs can be precisely varied from 3.40 to 3.70 Å, leading to widened band gap, suppressed carrier mobilities, and significant improvement of the Seebeck coefficient. With this demonstration, we further achieve a record-high thermoelectric power factor of 68 ± 3 nW m−1 K−2 in Ni3(HATI_C3)2, superior to the reported holes-dominated MOFs.

Suggested Citation

  • Yang Lu & Yingying Zhang & Chi-Yuan Yang & Sergio Revuelta & Haoyuan Qi & Chuanhui Huang & Wenlong Jin & Zichao Li & Victor Vega-Mayoral & Yannan Liu & Xing Huang & Darius Pohl & Miroslav Položij & Sh, 2022. "Precise tuning of interlayer electronic coupling in layered conductive metal-organic frameworks," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-34820-6
    DOI: 10.1038/s41467-022-34820-6
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