Performance evaluation of graphene oxide–MnO2 nanocomposite for alkaline membrane fuel cell

Mushtaq Ahmed; Shahbaz Ahmad; Tahir Nawaz; M. Ali Durrani; Asghar Ali; Saim Saher; Muhammad Alam Zaib Khan; Mehmet Egilmez; Ayesha Samreen; Faisal Mustafa

doi:10.1002/elsa.202100085

Electrochemical Science Advances (Jun 2022)

Performance evaluation of graphene oxide–MnO2 nanocomposite for alkaline membrane fuel cell

Mushtaq Ahmed,
Shahbaz Ahmad,
Tahir Nawaz,
M. Ali Durrani,
Asghar Ali,
Saim Saher,
Muhammad Alam Zaib Khan,
Mehmet Egilmez,
Ayesha Samreen,
Faisal Mustafa

Affiliations

Mushtaq Ahmed: U.S.‐Pakistan Center for Advanced Studies in Energy University of Engineering and Technology Peshawar Pakistan
Shahbaz Ahmad: U.S.‐Pakistan Center for Advanced Studies in Energy University of Engineering and Technology Peshawar Pakistan
Tahir Nawaz: U.S.‐Pakistan Center for Advanced Studies in Energy National University of Sciences and Technology Islamabad Pakistan
M. Ali Durrani: U.S.‐Pakistan Center for Advanced Studies in Energy University of Engineering and Technology Peshawar Pakistan
Asghar Ali: U.S.‐Pakistan Center for Advanced Studies in Energy National University of Sciences and Technology Islamabad Pakistan
Saim Saher: Ariston Energy Solutions Peshawar Pakistan
Muhammad Alam Zaib Khan: Department of Mechanical Engineering University of Engineering and Technology Peshawar Pakistan
Mehmet Egilmez: Department of Physics American University of Sharjah Sharjah United Arab Emirates
Ayesha Samreen: Department of Physics University of Peshawar Peshawar Pakistan
Faisal Mustafa: Department of Physics American University of Sharjah Sharjah United Arab Emirates

DOI: https://doi.org/10.1002/elsa.202100085
Journal volume & issue: Vol. 2, no. 3
pp. n/a – n/a

Abstract

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Abstract The manganese dioxide/graphene oxide (MnO2/GO) nanocomposites were prepared from hydrothermally synthesized MnO2 nanorods and graphene oxide. Electrocatalytic performance for the oxygen reduction reactions (ORR) of the fabricated MnO2/GO nanocomposites was evaluated using the rotating disk electrode (RDE) method. It is found that MnO2/GO nanocomposites deliver significantly enhanced performance compared to standalone MnO2 and GO with current density and onset potential values of 5.1 mA/cm2 and 0.93 V versus RHE, respectively. The alkaline membrane fuel cell (AMFC) characteristics were also studied. In particular, the single‐cell alkaline fuel cell stack with MnO2/GO nanocomposite as cathode loading produced a peak power density value of 82 mW/cm2. Our findings revealed great potential for MnO2/GO nanocomposites for their electrocatalytic performance and utilization in AMFC as the cathode. Namely, MnO2/GO achieved fuel cell functionalities that were comparable to the widely used commercial Pt/C. The enhanced electrochemical performance of MnO2/GO is attributed to the synergistic interaction between highly conductive GO sheets and active sites of MnO2 nanorods. The commendable performance of MnO2/GO suggests that it can be used as electrocatalysts in alkaline fuel cell applications.

Published in Electrochemical Science Advances

ISSN: 2698-5977 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Industrial electrochemistry; Science: Chemistry
Website: https://chemistry-europe.onlinelibrary.wiley.com/journal/26985977

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