ZnO@C (core@shell) microspheres derived from spent coffee grounds as applicable non-precious electrode material for DMFCs

ZnO@C (core@shell) microspheres derived from spent coffee grounds as applicable non-precious electrode material for DMFCs

Although numerous reports have introduced non precious electrocatalysts for methanol oxidation, most of those studies did not consider the corresponding high onset potential which restricts utilization in real fuel cells. In this study, an −90 mV [vs. Ag/AgCl] onset potential non-precious electrocat...

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Bibliographic Details
Published in:Scientific reports Vol. 7; no. 1; pp. 1738 - 8
Main Authors: Ghouri, Zafar Khan, Al-Meer, Saeed, Barakat, Nasser A. M., Kim, Hak Yong
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 11-05-2017
Nature Publishing Group
Nature Portfolio
Subjects:
639/4077
639/4077/893
Bioelectric Energy Sources
Carbon
Coffee
Coffee - chemistry
Electrochemistry
Electrodes
Elements
Fuel cells
Fuel technology
Humanities and Social Sciences
Methanol
Methanol - chemistry
Microspheres
multidisciplinary
Oxidation
Science
Science (multidisciplinary)
Spectrometry, X-Ray Emission
X-Ray Diffraction
Zinc Oxide - chemistry
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Summary:Although numerous reports have introduced non precious electrocatalysts for methanol oxidation, most of those studies did not consider the corresponding high onset potential which restricts utilization in real fuel cells. In this study, an −90 mV [vs. Ag/AgCl] onset potential non-precious electrocatalyst is introduced as an applicable anode material for the direct methanol fuel cells. Moreover, the proposed material was prepared from a cheap and abundantly existing resource; the spent coffee grounds. Typically, the spent coffee grounds were facilely converted to core@shell (ZnO@C) microspheres through a two-step approach, involving chemical activation and a subsequent calcination at temperature of 700 °C. Activation of the carbon derived from the spent coffee grounds was performed with ZnCl 2 which acts as pore-forming agent as well as a precursor for the ZnO. The structure and morphology were characterized by (XRD), (SEM), and (TEM) analyses while the electrochemical characterizations was evaluated by cyclic voltammetry (CV) technique. Besides the comparatively very low onset potential, the introduced microspheres exhibited relatively high current density; 17 mA/cm 2 . Overall, based on the advantages of the green source of carbon and the good electrocatalytic activity, the spent coffee grounds-derived carbon can be considered a promise anode material for the DMFCs.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-01463-3