Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres
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© 2019, Springer-Verlag GmbH Germany, part of Springer Nature
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A simple and facile hydrothermal methodology for preparation of carbon microspheres supported with silver or platinum is presented. Electrocatalytic properties of modified carbon microspheres are tested against the electrochemical reduction reaction of hydrogen peroxide. As revealed by transmission electron microscopy, silver and platinum are immobilized on the surface of carbon microspheres in a form of nanoparticles. In addition, scanning electron microscopy reveals coexistence of smooth surface spherical-shaped carbon microspheres together with clusters that resemble a bunch-of-grapes. Carbon paste electrodes in combination with cyclic and square-wave voltammetry are used to study electrocatalytic properties of carbon microspheres. Voltammetric data are analyzed in light of the theory for simple irreversible electrode reaction. Correlation between experimental and theoretical data implies the highest electrocatalytic effect in the case of silver-modified carbon microspheres, though ...the electrode mechanism is more complex than theoretically predicted. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.
Ključne reči:
Carbon microspheres / Electrocatalysis / Hydrogen peroxide / Square-wave voltammetryIzvor:
Journal of Solid State Electrochemistry, 2019, 23, 4, 1257-1267Finansiranje / projekti:
- DAAD foundation through a multilateral project "International Masters and Postgraduate Programme in Materials Science and Catalysis" (MatCatNet)
- Razvoj i karakterizacija novog biosorbenta za prečišćavanje prirodnih i otpadnih voda (RS-MESTD-Technological Development (TD or TR)-34008)
- Nove tehnologije za monitoring i zaštitu životnog okruženja od štetnih hemijskih supstanci i radijacionog opterećenja (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-43009)
- NATO [SPS G5550]
DOI: 10.1007/s10008-019-04226-4
ISSN: 1432-8488
WoS: 000463866900019
Scopus: 2-s2.0-85062324748
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VinčaTY - JOUR AU - Ranđelović, Marjan S. AU - Momčilović, Milan Z. AU - Enke, Dirk AU - Mirčeski, Valentin PY - 2019 UR - https://vinar.vin.bg.ac.rs/handle/123456789/8543 AB - A simple and facile hydrothermal methodology for preparation of carbon microspheres supported with silver or platinum is presented. Electrocatalytic properties of modified carbon microspheres are tested against the electrochemical reduction reaction of hydrogen peroxide. As revealed by transmission electron microscopy, silver and platinum are immobilized on the surface of carbon microspheres in a form of nanoparticles. In addition, scanning electron microscopy reveals coexistence of smooth surface spherical-shaped carbon microspheres together with clusters that resemble a bunch-of-grapes. Carbon paste electrodes in combination with cyclic and square-wave voltammetry are used to study electrocatalytic properties of carbon microspheres. Voltammetric data are analyzed in light of the theory for simple irreversible electrode reaction. Correlation between experimental and theoretical data implies the highest electrocatalytic effect in the case of silver-modified carbon microspheres, though the electrode mechanism is more complex than theoretically predicted. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature. T2 - Journal of Solid State Electrochemistry T1 - Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres VL - 23 IS - 4 SP - 1257 EP - 1267 DO - 10.1007/s10008-019-04226-4 ER -
@article{ author = "Ranđelović, Marjan S. and Momčilović, Milan Z. and Enke, Dirk and Mirčeski, Valentin", year = "2019", abstract = "A simple and facile hydrothermal methodology for preparation of carbon microspheres supported with silver or platinum is presented. Electrocatalytic properties of modified carbon microspheres are tested against the electrochemical reduction reaction of hydrogen peroxide. As revealed by transmission electron microscopy, silver and platinum are immobilized on the surface of carbon microspheres in a form of nanoparticles. In addition, scanning electron microscopy reveals coexistence of smooth surface spherical-shaped carbon microspheres together with clusters that resemble a bunch-of-grapes. Carbon paste electrodes in combination with cyclic and square-wave voltammetry are used to study electrocatalytic properties of carbon microspheres. Voltammetric data are analyzed in light of the theory for simple irreversible electrode reaction. Correlation between experimental and theoretical data implies the highest electrocatalytic effect in the case of silver-modified carbon microspheres, though the electrode mechanism is more complex than theoretically predicted. © 2019, Springer-Verlag GmbH Germany, part of Springer Nature.", journal = "Journal of Solid State Electrochemistry", title = "Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres", volume = "23", number = "4", pages = "1257-1267", doi = "10.1007/s10008-019-04226-4" }
Ranđelović, M. S., Momčilović, M. Z., Enke, D.,& Mirčeski, V.. (2019). Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres. in Journal of Solid State Electrochemistry, 23(4), 1257-1267. https://doi.org/10.1007/s10008-019-04226-4
Ranđelović MS, Momčilović MZ, Enke D, Mirčeski V. Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres. in Journal of Solid State Electrochemistry. 2019;23(4):1257-1267. doi:10.1007/s10008-019-04226-4 .
Ranđelović, Marjan S., Momčilović, Milan Z., Enke, Dirk, Mirčeski, Valentin, "Electrochemistry of hydrogen peroxide reduction reaction on carbon paste electrodes modified by Ag- and Pt-supported carbon microspheres" in Journal of Solid State Electrochemistry, 23, no. 4 (2019):1257-1267, https://doi.org/10.1007/s10008-019-04226-4 . .