Abstract
Capacitive deionization (CDI) has been attracted great interest as an emerging desalination technology and the electrode materials play a critical role on improving CDI performance. In this work, nitrogen-enriched activated carbon fibers (AN-CFs) were prepared from the natural based silk cocoon through simple carbonization and CO2 activation. Their electrochemical and electrosorption behaviors were studied in NaCl solution. The results show that AN-CFs exhibit a fibri form porous structure with rich nitrogen element and CO2 activation enhances their specific surface area. Compared with unactivated nitrogen-enriched carbon fibers (196.05Fg−1 at 1mVs−1, 12.02mgg−1 in 1000mgl−1 NaCl solution), AN-CFs exhibit more excellent capacitive (236.03Fg−1) and CDI (16.56mgg−1) performances, showing that CO2 activation is proved to be an effective method to improve electrochemical and electrosorption performances and the AN-CFs should be a promising electrode material for CDI application.
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