AIP Advances (Jun 2017)

Modulating the size of ZnO nanorods on SiO2 substrates by incorporating reduced graphene oxide into the seed layer solution

  • Tzu-Yi Yu,
  • Min Ruei Wei,
  • Chen Yuan Weng,
  • Wei Ming Su,
  • Chien Cheng Lu,
  • Yu Tzu Chen,
  • Hsiang Chen

DOI
https://doi.org/10.1063/1.4986759
Journal volume & issue
Vol. 7, no. 6
pp. 065110 – 065110-8

Abstract

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In this research, reduced graphene oxide was incorporated into the ZnO seed layer to modulate the rod diameter of ZnO nanorods (NRs) during solgel/hydrothermal growth. To characterize the reduced graphene oxide incorporated ZnO NRs, multiple material analysis techniques including field-emission scanning electron microscopy, surface contact angle measurements, X-ray diffraction, and photoluminescence were used to explore distinct properties of these size modulatable NRs. Results indicate ZnO NRs with smaller diameters could be observed with more reduced graphene oxide added into the ZnO seed layer. Furthermore, better crystallinity, higher hydrophobicity and lower defect concentration could be obtained with more amount of reduced graphene oxide added into the ZnO seed layer. The modulatable reduced graphene oxide-incorporated ZnO NRs growth is promising for future ZnO NRs based nanodevice applications.