Role of fluorination in improvement of the electrochemical properties of activated carbon nanofiber electrodes

In this study, we investigated the role of fluorination in improving the electrochemical properties of activated carbon nanofiber (ACNF) electrodes. The ACNFs were prepared with various textural properties and then fluorinated. The electrochemical properties of the resulting ACNFs were subsequently evaluated to investigate the effect of the fluorination of the prepared ACNFs with various textural properties on the electrochemical properties. The specific capacitances of the ACNF electrodes increased by 15.8-47.3% after fluorination, although the specific surface area and the total pore volume decreased significantly; these results suggest that the introduction of C-F functional groups onto the ACNF surface was more important than the induction of changes in the textural properties of the ACNF samples with respect to improving the electrochemical properties of the ACNF electrodes. The retained capacitances of the ACNF electrodes also increased 2-12% after fluorination, although the etching effect of the fluorination significantly collapsed the mesopores; these results suggest that the C-F functional groups were electrochemically active even at a high scan rate. (C) 2013 Elsevier B.V. All rights reserved.