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AuthorXu, Xingtao
AuthorYang, Tao
AuthorZhang, Qiwen
AuthorXia, Wei
AuthorDing, Zibiao
AuthorEid, Kamel
AuthorAbdullah, Aboubakr M.
AuthorShahriar A. Hossain, Md
AuthorZhang, Shuaihua
AuthorTang, Jing
AuthorPan, Likun
AuthorYamauchi, Yusuke
Available date2022-10-02T05:30:40Z
Publication Date2020-06-15
Publication NameChemical Engineering Journal
Identifierhttp://dx.doi.org/10.1016/j.cej.2020.124493
CitationXu, X., Yang, T., Zhang, Q., Xia, W., Ding, Z., Eid, K., ... & Yamauchi, Y. (2020). Ultrahigh capacitive deionization performance by 3D interconnected MOF-derived nitrogen-doped carbon tubes. Chemical Engineering Journal, 390, 124493.‏
ISSN13858947
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85079650830&origin=inward
URIhttp://hdl.handle.net/10576/34691
AbstractThe design of new-family carbon materials to capture more saline ions is one of the biggest challenges of capacitive deionization (CDI) for water desalination. Herein, we demonstrate the preparation of integrated tubular metal-organic framework architectures using a 3D scaffold, and their derivative of nitrogen-doped carbon tubes (denoted as NCTs) that possess a maximum salt adsorption capacity of 56.9 mg g−1 and good cycling stability. Compared with other carbon materials, our elaborately designed NCTs exhibit multiple advantages: (i) tubular architecture diminishes the efficient diffusion distance for both electrons and ions, (ii) binder-free electrode configuration provides increased accessible surface area for ions accommodation, and (iii) plentiful nitrogen dopants improve the reactivity and electrical conductivity of carbon matrix. Consequently, NCTs exhibit an ultrahigh CDI performance compared to other carbon materials reported previously, highlighting the significance of 3D free-standing carbon architectures for CDI application.
SponsorThis work was jointly supported by the National Natural Science Foundation of China ( 51909066 ), and China Postdoctoral Science Foundation funded project ( 2019M651682 ). Dr J. Tang and Professor Y. Yamauchi are the recipients of Discovery Early Career Researcher Award (DE190101410) and Future Fellow (FT150100479), respectively, funded by the Australian Research Council (ARC). This work was performed in part at the Queensland node of the Australian National Fabrication Facility, a company established under the National Collaborative Research Infrastructure Strategy to provide nano and micro-fabrication facilities for Australian researchers.
Languageen
PublisherElsevier B.V.
SubjectCapacitive deionization
Carbon tubes
Metal-organic frameworks
Nanoporous carbons
Water desalination
TitleUltrahigh capacitive deionization performance by 3D interconnected MOF-derived nitrogen-doped carbon tubes
TypeArticle
Volume Number390
dc.accessType Abstract Only


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