Insight into the high-efficient functionalization of carbon nanotubes by advanced oxidation using peroxomonosulfate

We report a high-efficient approach for functionalizing carbon nanotubes (CNTs) by utilizing peroxomonosulfate (PMS) coupling with Co(II) ions. Compared with UV/Fenton approach (UF-CNT), the PMS/Co(II) procedure enables superior water dispersibility of the functionalized CNTs (PM-CNT). Both morpholo...

Full description

Saved in:
Bibliographic Details
Published inMicroporous and mesoporous materials Vol. 260; pp. 24 - 29
Main Authors Li, Qiyang, Zhou, Chenggang, Ji, Zhuan, Gao, De, Han, Bo, Xia, Kaisheng, Gao, Qiang, Wu, Jinping
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.04.2018
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:We report a high-efficient approach for functionalizing carbon nanotubes (CNTs) by utilizing peroxomonosulfate (PMS) coupling with Co(II) ions. Compared with UV/Fenton approach (UF-CNT), the PMS/Co(II) procedure enables superior water dispersibility of the functionalized CNTs (PM-CNT). Both morphological and Raman characterizations show that numerous defects are created upon functionalization, leading to intensive tube wall corrosion and truncation. XPS spectra indicate that both UF-CNT and PM-CNT contain large amounts of oxygen-containing groups. The O content in UF-CNT is dominated by hydroxyl and epoxy species. In contrast, carbonyls are more preferentially planted in PM-CNT. First-principles simulations reveal that the PMS/Co(II) functionalization includes two sequential Steps, during which the adsorbed OH species undergo self-dissociation to form epoxies, followed by the breaking of neighboring C-C bonds as well as the formation of carbonyls. We identified that the HO· radical (exist in both two activation processes) could only functionalize the CNTs to the hydroxyl or epoxy stage, while SO4–· radical (only appears in PMS/Co(II) treatment) will facilitate the conversion of epoxy to carbonyl, in excellent agreement with experimental observations. Our results not only shed light on the insights of the PMS/Co(II) functionalization but provide a transferrable strategy for functionalizing other carbon substrates. [Display omitted] •A high-efficient approach to functionalize CNTs by using peroxomonosulfate (PMS) augmented with Co(II) in aqueous solution.Comparing with typical UV/Fenton method (UF-CNT), PMS/Co2+ procedure enables superior water dispersibility of the functionalized CNTs (PM-CNT). Large amounts of oxygen-containing groups have been planted on the CNTs substrate, along with high degree of tube wall corrosion and truncation.•Experimental investigations reveal that the dominating functional groups in PM-CNT are carbonyls; whereas in UF-CNT, hydroxyl or epoxy groups are more preferential.•Our first-principles calculations depict that, the HO· radical (exist in both two activation processes) could only functionalize the CNTs to the hydroxyl or epoxy stage, while SO4–· radical (only appears in PMS/Co2+ treatment) will facilitate the conversion of epoxy to carbonyl.•Our results not only shed light on the insights of the PMS/Co2+ functionalization technologies but provide a transferrable strategy for functionalizing other carbon substrates, which may be of preferential interests for the carbon community.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2017.10.002