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Copper nanoparticles immobilized on a hybrid chitosan derivative-graphite substrate as a novel electrocatalyst for the oxygen reduction reaction

Ali A. Ensafi, E. Heydari-Soureshjani, Sh. Sayed Afiyuni, B. Rezaei+


a b s t r a c t
In this study, abundant and cheap graphite support (G) was modified with chitosan (Chit)
and amine groups to obtain N-Chit-G and subsequently decorated with copper nanoparticles
(CuNPs). The nanocomposites thus obtained were characterized at different stages of the synthesis using various techniques such as transmission electron microscopy, X-ray photoelectron spectroscopy, BrunauereEmmetteTeller, carbon-hydrogen nitrogen sulfur analyzer, cyclic voltammetry, and electrochemical impedance spectroscopy. Results showed that CuNPs had been uniformly and finely decorated on the N-Chit-G support, in which copper was in the predominant form of Cu(Ⅰ). The RandleseSevcik equation revealed the high active surface area of Cu@N-Chit-G compared to the remaining composites obtained. Oxygen reduction reaction (ORR) at Cu@N-Chit-G was evaluated
by linear sweep voltammetry using a rotating disk electrode in a KOH solution (0.1 mol L1) saturated with O2 and O2 plus MeOH (1.0 mol L1) to find the good electrocatalytic capability of Cu@N-Chit-G for ORR with a small onset potential of 0.74 V (vs. RHE). A KOH solution, saturated with MeOH (1.0 mol L1), revealed good 10000 s durability of Cu@N-Chit-G electrocatalyst with a slow drop in the current (91%). Finally, ORR kinetic investigations were conducted using the KouteckyeLevich (K-L) plot to find the ORR progress through a 4ee pathway.

Keywords:
Oxygen reduction reaction, Graphite, Chitosan, Amine groups, Voltammetry

Journal Papers
Month/Season: 
July
Year: 
2019

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