Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes

Optimized Pt-based methanol oxidation reaction (MOR) anodes are essential for commercial direct methanol fuel cells (DMFCs) and methanol electrolyzers for hydrogen production. High surface area Ti supports are known to increase Pt catalytic activity and utilization. Pt has been deposited on black ti...

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Autores principales: Touni, Aikaterini, Liu, Xin, Kang, Xiaolan, Papoulia, Chrysanthi, Pavlidou, Eleni, Lambropoulou, Dimitra, Tsampas, Mihalis N., Chatzitakis, Athanasios, Sotiropoulos, Sotiris
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9571902/
https://www.ncbi.nlm.nih.gov/pubmed/36234915
http://dx.doi.org/10.3390/molecules27196382
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author Touni, Aikaterini
Liu, Xin
Kang, Xiaolan
Papoulia, Chrysanthi
Pavlidou, Eleni
Lambropoulou, Dimitra
Tsampas, Mihalis N.
Chatzitakis, Athanasios
Sotiropoulos, Sotiris
author_facet Touni, Aikaterini
Liu, Xin
Kang, Xiaolan
Papoulia, Chrysanthi
Pavlidou, Eleni
Lambropoulou, Dimitra
Tsampas, Mihalis N.
Chatzitakis, Athanasios
Sotiropoulos, Sotiris
author_sort Touni, Aikaterini
collection PubMed
description Optimized Pt-based methanol oxidation reaction (MOR) anodes are essential for commercial direct methanol fuel cells (DMFCs) and methanol electrolyzers for hydrogen production. High surface area Ti supports are known to increase Pt catalytic activity and utilization. Pt has been deposited on black titania nanotubes (bTNTs), Ti felts and, for comparison, Ti foils by a galvanic deposition process, whereby Pt(IV) from a chloroplatinate solution is spontaneously reduced to metallic Pt (at 65 °C) onto chemically reduced (by CaH(2)) TNTs (resulting in bTNTs), chemically etched (HCl + NaF) Ti felts and grinded Ti foils. All Pt/Ti-based electrodes prepared by this method showed enhanced intrinsic catalytic activity towards MOR when compared to Pt and other Pt/Ti-based catalysts. The very high/high mass specific activity of Pt/bTNTs (ca 700 mA mg(Pt)(−1) at the voltammetric peak of 5 mV s(−1) in 0.5 M MeOH) and of Pt/Ti-felt (ca 60 mA mg(Pt)(−1), accordingly) make these electrodes good candidates for MOR anodes and/or reactive Gas Diffusion Layer Electrodes (GDLEs) in DMFCs and/or methanol electrolysis cells.
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spelling pubmed-95719022022-10-17 Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes Touni, Aikaterini Liu, Xin Kang, Xiaolan Papoulia, Chrysanthi Pavlidou, Eleni Lambropoulou, Dimitra Tsampas, Mihalis N. Chatzitakis, Athanasios Sotiropoulos, Sotiris Molecules Article Optimized Pt-based methanol oxidation reaction (MOR) anodes are essential for commercial direct methanol fuel cells (DMFCs) and methanol electrolyzers for hydrogen production. High surface area Ti supports are known to increase Pt catalytic activity and utilization. Pt has been deposited on black titania nanotubes (bTNTs), Ti felts and, for comparison, Ti foils by a galvanic deposition process, whereby Pt(IV) from a chloroplatinate solution is spontaneously reduced to metallic Pt (at 65 °C) onto chemically reduced (by CaH(2)) TNTs (resulting in bTNTs), chemically etched (HCl + NaF) Ti felts and grinded Ti foils. All Pt/Ti-based electrodes prepared by this method showed enhanced intrinsic catalytic activity towards MOR when compared to Pt and other Pt/Ti-based catalysts. The very high/high mass specific activity of Pt/bTNTs (ca 700 mA mg(Pt)(−1) at the voltammetric peak of 5 mV s(−1) in 0.5 M MeOH) and of Pt/Ti-felt (ca 60 mA mg(Pt)(−1), accordingly) make these electrodes good candidates for MOR anodes and/or reactive Gas Diffusion Layer Electrodes (GDLEs) in DMFCs and/or methanol electrolysis cells. MDPI 2022-09-27 /pmc/articles/PMC9571902/ /pubmed/36234915 http://dx.doi.org/10.3390/molecules27196382 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Touni, Aikaterini
Liu, Xin
Kang, Xiaolan
Papoulia, Chrysanthi
Pavlidou, Eleni
Lambropoulou, Dimitra
Tsampas, Mihalis N.
Chatzitakis, Athanasios
Sotiropoulos, Sotiris
Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title_full Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title_fullStr Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title_full_unstemmed Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title_short Methanol Oxidation at Platinum Coated Black Titania Nanotubes and Titanium Felt Electrodes
title_sort methanol oxidation at platinum coated black titania nanotubes and titanium felt electrodes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9571902/
https://www.ncbi.nlm.nih.gov/pubmed/36234915
http://dx.doi.org/10.3390/molecules27196382
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