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AuthorEid, Kamel
AuthorLu, Qingqing
AuthorAbdel-Azeim, Safwat
AuthorSoliman, Ahmed
AuthorAbdullah, Aboubakr M.
AuthorAbdelgwad, Ahmed M.
AuthorForbes, Roy P.
AuthorOzoemena, Kenneth I.
AuthorVarma, Rajender S.
AuthorShibl, Mohamed F.
Available date2022-09-19T11:34:36Z
Publication Date2022-01-28
Publication NameJournal of Materials Chemistry A
Identifierhttp://dx.doi.org/10.1039/d1ta09471h
CitationEid, K., Lu, Q., Abdel-Azeim, S., Soliman, A., Abdullah, A. M., Abdelgwad, A. M., ... & Shibl, M. F. (2022). Highly exfoliated Ti 3 C 2 T x MXene nanosheets atomically doped with Cu for efficient electrochemical CO 2 reduction: an experimental and theoretical study. Journal of Materials Chemistry A, 10(4), 1965-1975.‏
ISSN20507488
URIhttps://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85123723053&origin=inward
URIhttp://hdl.handle.net/10576/34172
AbstractTi3C2Tx MXene nanostructures have garnered attention for various catalytic applications due to their built-in electronic properties. Herein, we rationally design highly exfoliated two-dimensional Ti3C2Tx nanosheets (Tx = O, OH, and F) doped with Cu (denoted as Cu/Ti3C2Tx) for the electrochemical CO2 reduction reaction (CO2RR). The fabrication process entails the selective chemical etching of Ti3AlC2 followed by the delamination thereof under ultrasonic treatment and subsequent mixing with a Cu precursor to allow in situ doping. The resultant Cu/Ti3C2Tx are highly exfoliated nanosheets with a surface area of 46 m2 g-1 and are uniformly doped with Cu atoms (1.04 wt%). The CO2RR current density of Cu/Ti3C2Tx (-1.08 mA cm-2) was 3.6 times higher than that of Ti3C2Tx (-0.3 mA cm-2) besides a lower onset reduction potential and Tafel slope, and higher stability, due to the greater surface area, electronic effect, and quicker charge transfer on Cu/Ti3C2Tx. The formic acid (HCOOH) faradaic efficiency on Cu/Ti3C2Tx (58.1%) was 3-fold higher than that on Ti3C2Tx (18.7%). Based on density functional theory (DFT) simulation, Cu-doping induces polarized sites with high electron density, allowing the CO2RR path through the ∗HCOOH intermediate to form formic acid (HCOOH). The study presented here will open new pathways for using Ti3C2Tx doped with various metals for the CO2RR. This journal is
Languageen
PublisherRoyal Society of Chemistry
SubjectAluminum compounds
TitleHighly exfoliated Ti3C2T: XMXene nanosheets atomically doped with Cu for efficient electrochemical CO2reduction: An experimental and theoretical study
TypeArticle
Pagination1965-1975
Issue Number4
Volume Number10
dc.accessType Abstract Only


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