High Electrochemical Activity Induced by Doping Oxygen in Graphene Sheets Embedded Carbon Film

Abstract: In this work, the high electrochemical activity induced by doping different contents of oxygen on the surface of graphene sheets embedded carbon (GSEC) film is studied, which is prepared by electron cyclotron resonance (ECR) plasma sputtering system under electron irradiation. Transmission electron microscopy observation and Raman analysis confirm that doping oxygen induced more graphene edges and oxygen‐containing functional groups on the surface. The electrochemical activities of the films are measured in th… Show more

“…The peak centered at 284.6 eV is ascribed to the C–C bond, which originated from the bare surface of the CC substrate. The peak at 288.15 eV can be assigned to O–CO, , possibly arising due to the partial oxidation of the CC from exposure to air. The formation of the C–S bond indicated by the peak located at 285.2 eV confirms the successful incorporation of cobalt sulfides onto the surface of the CC .…”

Low-Temperature Solvothermal Growth of Co_xS_y Nanospheres on Conducting Substrates as Efficient Electrodes for Hydrogen Evolution Reaction

“…The peak centered at 284.6 eV is ascribed to the C–C bond, which originated from the bare surface of the CC substrate. The peak at 288.15 eV can be assigned to O–CO, , possibly arising due to the partial oxidation of the CC from exposure to air. The formation of the C–S bond indicated by the peak located at 285.2 eV confirms the successful incorporation of cobalt sulfides onto the surface of the CC .…”

Low-Temperature Solvothermal Growth of Co_xS_y Nanospheres on Conducting Substrates as Efficient Electrodes for Hydrogen Evolution Reaction

Rapid fabrication of ultra-wear-resistant graphene nanocrystallite film by direct laser writing

Low-energy electrochemical CO2-amine desorption driven by the proton-coupled electron transfer reaction (PCET)