This chapter presented and discussed the experimental findings associated with the hybridisation of graphene nanoplatelet (GNP), silver (Ag) and zinc (Z) conductive ink, with particular emphasis on its adhesion performance under varying temperature and humidity conditions. The investigation examined the electrical, mechanical and thermal characteristics of the developed conductive ink system with the objective of addressing in this book. Through systematic testing and comprehensive evaluation, the results provide valuable insights into the suitability of the hybrid ink for printed electronic applications, particularly in environments exposed to fluctuating thermal and humidity conditions.

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Impacts and Future Innovations of Graphene Hybrid Inks

  • Mohd Azli Salim,
  • Nor Azmmi Masripan,
  • Norida Mohammad Noor

摘要

This chapter presented and discussed the experimental findings associated with the hybridisation of graphene nanoplatelet (GNP), silver (Ag) and zinc (Z) conductive ink, with particular emphasis on its adhesion performance under varying temperature and humidity conditions. The investigation examined the electrical, mechanical and thermal characteristics of the developed conductive ink system with the objective of addressing in this book. Through systematic testing and comprehensive evaluation, the results provide valuable insights into the suitability of the hybrid ink for printed electronic applications, particularly in environments exposed to fluctuating thermal and humidity conditions.