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  1. Coating the surface of interconnected Cu2O nanowire arrays

    • Controlling the crystallization of Metal–Organic Frameworks (MOFs) at the nanoscale is currently challenging, and this hinders their utilization for multiple applications including photo(electro)chemistry and sen… 展开

    Introduction

    Metal–Organic Frameworks (MOFs) are a class of crystalline nanoporous materials … 展开

    Nature
    Results and discussion

    Standing Cu2O nanowires via templated electrodeposition inside polycarbonate membranes
    Cu2O nanowires standing on a conductive substrate were p… 展开

    Nature
    Conclusions

    Here, we presented the preparation of Cu2O@HKUST-1 nanowires standing on a conductive support, which opens up the possibility to use such hybrid nanostructures i… 展开

    Nature
    Acknowledgements

    We kindly thank Dr. Frank Heyroth for the assistance with the scanning electron microscope. Financial support from the BMBF (Grant No. FKZ:03Z22HN11) is greatly acknowle… 展开

    Nature
     
  1. Synthesis and characterization of Cu2O nanoparticles

  2. XRD spectra of the substrates involving Cu2O (a) and CuO (b).

  3. Nanoengineering Construction of Cu2O Nanowire …

    Experimental section (material, experimental procedure, material characterization, photocatalytic CO 2 reduction measurement, the calculation of apparent quantum efficiency (AQE), and photoelectrochemical characterizations); supplementary …

  4. Realizing super-long Cu2O nanowires arrays for high-efficient …

  5. Synthesis and characterization of Cu2O nanowires array via an …

  6. Synthesis of core–shell heterostructured Cu/Cu2O …

    Core–shell heterostructured Cu/Cu2O nanowires with a high aspect ratio were synthesized from Cu foam using a novel oxidation/reduction process. In situ XRD was used as an efficient tool to acquire phase transformation details during …

  7. XRD spectra of the Cu2O, CuO, and Cu2O/CuO …

    We report improved field electron emission (FEE) properties of copper oxide (CuO) nanowires (NWs) emitter by adjusting their aspect ratio, density at emitting edges, and strength of the NWs.

  8. Smooth and conductive DNA-templated Cu2O nanowires: growth …

  9. XRD patterns of Cu/Cu 2 O nanowires deposited into the …