Precise fabrication of porous one-dimensional gC3N4 nanotubes doped with Pd and Cu atoms for efficient CO oxidation and CO2 reduction
Author | Eid K. |
Author | Sliem M.H. |
Author | Jlassi K. |
Author | Eldesoky A.S. |
Author | Abdo G.G. |
Author | Al-Qaradawi S.Y. |
Author | Sharaf M.A. |
Author | Abdullah A.M. |
Author | Elzatahry A.A. |
Available date | 2020-04-23T14:21:34Z |
Publication Date | 2019 |
Publication Name | Inorganic Chemistry Communications |
Resource | Scopus |
ISSN | 13877003 |
Abstract | Rational design of graphitic carbon nitride nanostructures (gC3N4) is vital for various catalytic applications. Herein, we synthesized porous gC3N4 nanotubes (gC3N4NTs) doped with Pd and Cu (Pd/Cu/gC3N4NTs) via the consecutive polymerization of melamine in an ethylene glycol solution containing the metal precursors followed by annealing. The gC3N4NTs, thus produced, possess a well-defined one-dimensional porous nanotube architecture, large surface area (240 m2 g−1), and a homogenous dispersion of Pd and Cu with no need for templates and/or multistep reactions. This merits the CO oxidation activity of Pd/Cu/gC3N4NTs by 56 °C and 96 °C higher than that of Pd/gC3N4NTs and Cu/gC3N4NTs, respectively. The CO2 reduction activity of Pd/Cu/gC3N4NTs was a 5.5-fold higher than metal-free gC3N4NTs. Also, the UV-light irradiation enhanced the CO2 performance of Pd/Cu/gC3N4NTs by three times. The presented study may pave the way for the utilization of metal-doped gC3N4NTs in various applications. |
Sponsor | This work was supported by Qatar University under High Impact-Fund Program Grant ( QUHI-CAS-19/20-1 ). Authors would like to acknoweldge Qatra University Graduate Research Assistantship program offerend to Mrs. Ghada Abdo. Appendix A |
Language | en |
Publisher | Elsevier B.V. |
Subject | CO oxidation CO2 reduction Pd/Cu doped gC3N4 Porous carbon nitride nanotubes |
Type | Article |
Volume Number | 107 |
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