International journal of Nanoparticles and Nanotechnology (IJNN) is a multidisciplinary, peer reviewed journal which includes all the major fields in nanotechnology and Nano science. Nanoscience and nanotechnology brought up an unprecedented excitement in the scientific and engineering communities, especially the last decade. It is the engineering of functional systems at the molecular scale. This covers both current work and concepts that are more advanced.  International journal of Nanoparticles and Nanotechnology   publishes original research papers during a broad area of nanoscience & engineering. IJNN provides an ideal forum for presenting original reports of theoretical and experimental nanoscience and nanotechnology research. Nanotechnology is a gathering of rising innovations in which the structure of matter is controlled at the nanometer scale, the size of little quantities of molecules, to create novel materials and gadgets that have valuable and one of kind properties. IJNN is naturally multidisciplinary, and welcomes submissions across biological, physical, engineering, and computer sciences. Contributions from both academia and industry are equally encouraged. IJNN also publishes innovative techniques and instrumentation for the fabrication, characterization and testing of nano-enabled devices and technologies, as well as advanced modelling and simulation methods.




Na Li

Associate Professor

Dr. Na Li, 30years old, is an associate professor working at Guangdong University of Technology. She received her Ph.D. degree in Physics in 2015. During her PhD period, she has focused her research on the growth of vertically aligned graphenenanosheets byMPECVD, with the development of a new technique to grow the nanostructures, named Microwave Plasma Enhanced Chemical Vapor Deposition system.

From July 2015, her research activities are mainly centered on graphene composite membrane by PECVD, and the structural, photoelectric and electrochemical characterization of nanostructures. Hercurrentlyresearch interests include wearable energy storage devices, graphenenanostructure designs and polymer composites etc.

Current Research

  • Graphene membrane growth by MPECVD
  • Photoelectric properties of graphene
  • Electrochemical testing of graphene based flexibleenergy storage devices

Interested topics

  • Graphene based materials growth
  • Photoelectric andElectrochemical testingof 2D-Nanostructures
  • Electrochemicalflexible energy storage devices
  • Prof. ChunYiZhi (Department of Materials Science & Engineering
     City University of Hong Kong
    , China)
  • Flexible/Wearable Energy Storage/Conversion Devices, Nanomaterials, Polymer Composites