Preparation of anode catalysts for sorbitol electrooxidation based on the nanocomposites of fumed silica, reduced graphene oxide and gold nanoparticles

In this study, fumed silica (FS), reduced graphene oxide (rGO), and their hybrid (FS-rGO) are tested as support materials for Au nanoparticles to prepare anode catalysts for sorbitol fuel cells. Chemical reduction method is used to obtain Au@FS, Au@rGO, and Au@FS-rGO catalysts characterized by SEM,...

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Bibliographic Details
Published in:International journal of hydrogen energy 2021-08, Vol.46 (55), p.28121-28133
Main Authors: Daşdelen, Zeynep, Özcan, Ayça Atılır, Özcan, Ali
Format: Article
Language:English
Subjects:
Alcohol fuel cell
Fumed silica
Gold nanoparticle
Graphene oxide
Sorbitol oxidation
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Summary:In this study, fumed silica (FS), reduced graphene oxide (rGO), and their hybrid (FS-rGO) are tested as support materials for Au nanoparticles to prepare anode catalysts for sorbitol fuel cells. Chemical reduction method is used to obtain Au@FS, Au@rGO, and Au@FS-rGO catalysts characterized by SEM, EDAX, TEM, XRD, and Raman analysis. The Au contents of the catalysts are determined as 32.5% (Au@FS), 32% (Au@rGO), and 32.8% (Au@FS-rGO). Diameters of Au nanoparticles are measured as 1.51 nm (Au@FS), 5.90 nm (Au@rGO), and 7.05 nm (Au@FS-rGO). The highest current density for sorbitol oxidation is obtained with Au@FS-rGO. The onset potential of sorbitol oxidation obtained with Au@FS-rGO (0.007 V) is much smaller than those of Au@FS (0.028 V) and Au@rGO (0.038 V), indicating the synergistic effect of FS and rGO. FS significantly increases the activity and stability of the catalysts compared to rGO one of the commonly researched support materials in fuel cells. [Display omitted] •FS, rGO and FS-rGO hybrid were tested as catalyst supports for sorbitol fuel cells.•Au nanoparticles were formed on FS, rGO, or FS-rGO hybrid to obtain catalysts.•Activities of the catalysts in sorbitol oxidation were measured in KOH solution.•FS-rGO hybrid showed the highest activity in sorbitol oxidation as a support.•Nanocomposite of FS and Au showed exceptional stability in sorbitol oxidation.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2021.06.060