Electrochemical behavior of hybrid carbon nanomaterials: the chemistry behind electrochemistry

The unzipping of temperature-induced multi-walled carbon nanotubes (MWCNTs) to yield graphene oxide nanoribbons (GONRs) has been studied. These carbon nanomaterials consisting of MWCNTs and unzipped MWCNTs have been synthesized, thoroughly characterized, and subsequently evaluated for electrochemical sensing. Three temperatures (55, 65 and 75 degrees C) yielding three carbon nanomaterial termed as GONR-55, GONR-65 and GONR-75, respectively, were carefully studied. Interestingly, GONR-65 became the most suitable material for the electrochemical sensing of a wide range of model analytes displaying the best electrochemical response with independence of the analysed molecule. This electrochemical behaviour seems to be associated to the progress of the unzipping reaction that influences the balance between the Csp(2)/Csp(3) ratio, the graphitic fraction and the type of functional groups introduced. These results revealed the importance of the temperature in the synthesis process, for tailoring carbon nanomaterials which could be used in a particular molecular detection application opening new opportunities for electrochemical sensing applications. (C) 2016 Elsevier Ltd. All rights reserved.