AI Article Synopsis
- Incorporating nitrogen atoms into graphene can enhance its electrical properties, but achieving precise configurations remains challenging.
- A systematic study of nitrogen-containing gaseous plasma treatments on graphene nanowalls has been conducted to understand how nitrogen is incorporated into the structure.
- Results show that the conductivity of nitrogen-doped graphene varies based on the positions and concentrations of C-N bonds, highlighting new methods for tailoring its properties for specific applications.
Article Abstract
Incorporating nitrogen (N) atom in graphene is considered a key technique for tuning its electrical properties. However, this is still a great challenge, and it is unclear how to build N-graphene with desired nitrogen configurations. There is a lack of experimental evidence to explain the influence and mechanism of structural defects for nitrogen incorporation into graphene compared to the derived DFT theories. Herein, this gap is bridged through a systematic study of different nitrogen-containing gaseous plasma post-treatments on graphene nanowalls (CNWs) to produce N-CNWs with incorporated and substituted nitrogen. The structural and morphological analyses describe a remarkable difference in the plasma-surface interaction, nitrogen concentration and nitrogen incorporation mechanism in CNWs by using different nitrogen-containing plasma. Electrical conductivity measurements revealed that the conductivity of the N-graphene is strongly influenced by the position and concentration of C-N bonding configurations. These findings open up a new pathway for the synthesis of N-graphene using plasma post-treatment to control the concentration and configuration of incorporated nitrogen for application-specific properties.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7770896 | PMC |
| http://dx.doi.org/10.1007/s40820-020-0395-5 | DOI Listing |
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