Journal ArticleDOI
Preparation and Characterization of Multiwalled Carbon Nanotube-Supported Platinum for Cathode Catalysts of Direct Methanol Fuel Cells
TLDR
In this paper, a multiwalled carbon nanotube-supported Pt (Pt/MWNT) nanocomposites were prepared by both the aqueous solution reduction of a Pt salt (HCHO reduction) and the reduction of an ion salt in ethylene glycol solution.Abstract:
Multiwalled carbon nanotube-supported Pt (Pt/MWNT) nanocomposites were prepared by both the aqueous solution reduction of a Pt salt (HCHO reduction) and the reduction of a Pt ion salt in ethylene glycol solution. For comparison, a Pt/XC-72 nanocomposite was also prepared by the EG method. The Pt/MWNT catalyst prepared by the EG method has a high and homogeneous dispersion of spherical Pt metal particles with a narrow particle-size distribution. TEM images show that the Pt particle size is in the range of 2-5 nm with a peak at 2.6 nm, which is consistent with 2.5 nm obtained from the XRD broadening calculation. Surface chemical modifications of MWNTs and water content in EG solvent are found to be the key factors in depositing Pt particles on MWNTs. In the case of the direct methanol fuel cell (DMFC) test, the Pt/MWNT catalyst prepared by EG reduction is slightly superior to the catalyst prepared by aqueous reduction and displays significantly higher performance than the Pt/XC-72 catalyst. These differences in catalytic performance between the MWNT-supported or the carbon black XC-72-supported catalysts are attributed to a greater dispersion of the supported Pt particles when the EG method is used, in contrast to aqueous HCHO reduction and to possible unique structural and higher electrical properties when contrasting MWNTs to carbon black XC-72 as a support.read more
Citations
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Journal ArticleDOI
Enhancing the Catalytic Performance of Pt/C Catalysts Using Steam-Etched Carbon Blacks as a Catalyst Support
TL;DR: XC-72 carbon blacks were etched using steam for different times and used as a catalysts support for oxygen reduction reactions as mentioned in this paper, which can improve the Pt dispersion uniformity on the surface of the support.
Journal ArticleDOI
One step NaBH 4 reduction of Pt-Ru-Ni catalysts on different types of carbon supports for direct ethanol fuel cells: Synthesis and characterization
Napha Sudachom,Chompunuch Warakulwit,Chaiwat Prapainainar,Thongthai Witoon,Paweena Prapainainar +4 more
TL;DR: In this article, the ternary catalyst Pt75Ru5Ni20/f-MWCNT was used to improve the performance of ethanol electrooxidation reaction for direct ethanol fuel cell.
Journal ArticleDOI
The role of surface chemistry of modified MWCNT on the development and characteristics of Pt supported catalysts
TL;DR: In this article, the synthesis and characterization of highly dispersed Pt supported catalysts using functionalized multi-wall carbon nanotubes (f-MWCNT) as the substrate is discussed.
Journal ArticleDOI
Chiral-selective etching effects on carbon nanotube growth at edge carbon atoms.
TL;DR: This work used quantum chemical methods to study how water‐based etchant radicals (OH and H) may enhance the chiral selectivity during CVD growth using CNT cap models and found that proper selection of etchant species can provide opportunities for selective chirality control of the product CNTs.
Journal ArticleDOI
Role of iron oxide impurities in electrocatalysis by multiwall carbon nanotubes: An investigation using a novel magnetically modified ITO electrodes
TL;DR: In this paper, the role of iron oxide impurities in the electrocatalytic properties of multiwall carbon nanotubes (MWCNTs) prepared by catalytic chemical vapour decomposition method (CCVD) is studied in detail.
References
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Ordered nanoporous arrays of carbon supporting high dispersions of platinum nanoparticles
TL;DR: A general strategy for the synthesis of highly ordered, rigid arrays of nanoporous carbon having uniform but tunable diameters is described, which gives rise to promising electrocatalytic activity for oxygen reduction and could prove to be practically relevant for fuel-cell technologies.
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Large-Scale Synthesis of Aligned Carbon Nanotubes
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Carbon nanotubule membranes for electrochemical energy storage and production
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