4.7 Article

Potential of 3D Hierarchical Porous TiO2-Graphene Aerogel (TiO2-GA) as Electrocatalyst Support for Direct Methanol Fuel Cells

Journal

NANOMATERIALS
Volume 13, Issue 12, Pages -

Publisher

MDPI
DOI: 10.3390/nano13121819

Keywords

titanium dioxide; graphene aerogel; catalyst support; direct methanol fuel cell

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Fuel cells have shown great potential for green energy generation, but their low reaction performance hinders large-scale commercial manufacturing. This study focuses on a new fabrication method for a TiO2-graphene aerogel (TiO2-GA) supporting PtRu catalyst, which is simple, environmentally friendly, and cost-effective. The experimental outcomes demonstrate that PtRu/TiO2-GA offers higher surface area and better performance than commercial PtRu/C catalysts.
Fuel cells have already demonstrated their potential for green energy generation. However, the low reaction performance becomes an obstacle in terms of large-scale commercial manufacturing. Accordingly, this work focuses on a new unique fabrication of three-dimensional pore hierarchy TiO2-graphene aerogel (TiO2-GA) supporting PtRu catalyst for anodic catalyst direct methanol fuel cell, which is facile, ecologically benign, and economical. In this work, a hydrothermal technique was used, followed by a freeze-drying technique and a microwave-assisted ethylene reduction technique. The structural properties of the studied materials were confirmed by UV/visible spectroscopy, XRD, Raman spectrum, FESEM TEM, and XPS. Based on existing structural advantages, the performance of PtRu/TiO2-GA has been investigated on DMFC anode catalysts. Furthermore, electrocatalytic stability performance with the same loading (similar to 20%) was compared to commercial PtRu/C. Experimental outcomes show that the TiO2-GA support offered a significantly high surface area value of 68.44 m(2)g(-1), mass activity/specific activity (608.17 mAmg 1/0.45 mA/cm(2) (PtRu)) that is higher than commercial PtRu/C (79.11 mAmg 1/0.19 mA/cm(2) (PtRu)). In passive DMFC mode, PtRu/TiO2-GA showed a maximum power density of 3.1 mW cm(-2), which is 2.6 times higher than that of the PtRu/C commercial electrocatalyst. This suggests that PtRu/TiO2-GA has a promising possibility for methanol oxidation and may be used as an anodic element in DMFC.

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