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W2898833362 abstract "For the first time, a novel Pt catalyst supported on mesoporous Ti0.7W0.3O2 nanoparticles, which exhibited superior advantages such as high conductivity (0.022 S/cm), large specific surface area (201.481 m2/g) and homogeneous morphology with 9 nm spherical-like particles, was prepared successfully via the rapid microwave-assisted polyol route. It is found that uniform 3 nm spherical-like Pt nano-forms were adhered homogeneous on the surface of Ti0.7W0.3O2. Intriguingly, the electrochemical surface area of Pt catalyst supported on mesoporous Ti0.7W0.3O2 was found to be around 90.05 m2/gPt, which is profoundly higher than ECSA value obtained from Pt/C (E-TEK) catalyst. Furthermore, as for methanol oxidation reaction measurement, the If/Ib ratio of the 20 wt % Pt/Ti0.7W0.3O2 catalyst was found to be approximately 2.33, which 2.5-folds higher than that of the commercial Pt/C (E-TEK) catalyst. Importantly, the chronoamperometry data also revealed that the 20 wt % Pt/Ti0.7W0.3O2 catalyst possessed the higher durability than the commercial 20 wt % Pt/C (E-TEK) catalyst. In addition, the successful synthesis of the 20 wt % Pt/Ti0.7W0.3O2 catalyst not only offers an attractive catalyst for fuel cell using methanol but also opens application potentials for solar cells, as well as biosensors." @default.
W2898833362 created "2018-11-09" @default.
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W2898833362 date "2019-08-01" @default.
W2898833362 modified "2023-10-18" @default.
W2898833362 title "High conductivity and surface area of Ti0.7W0.3O2 mesoporous nanostructures support for Pt toward enhanced methanol oxidation in DMFCs" @default.
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W2898833362 cites W1965336726 @default.
W2898833362 cites W1974250533 @default.
W2898833362 cites W1976498712 @default.
W2898833362 cites W1981321926 @default.
W2898833362 cites W1993207925 @default.
W2898833362 cites W1999154547 @default.
W2898833362 cites W2000360851 @default.
W2898833362 cites W2000456217 @default.
W2898833362 cites W2005673486 @default.
W2898833362 cites W2007476652 @default.
W2898833362 cites W2015046352 @default.
W2898833362 cites W2020837684 @default.
W2898833362 cites W2024053649 @default.
W2898833362 cites W2026007858 @default.
W2898833362 cites W2032007310 @default.
W2898833362 cites W2040999664 @default.
W2898833362 cites W2042968887 @default.
W2898833362 cites W2047800773 @default.
W2898833362 cites W2048312827 @default.
W2898833362 cites W2050815170 @default.
W2898833362 cites W2056364163 @default.
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W2898833362 cites W2066298641 @default.
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W2898833362 cites W2088702711 @default.
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W2898833362 cites W2094578995 @default.
W2898833362 cites W2133241797 @default.
W2898833362 cites W2135199576 @default.
W2898833362 cites W2161310345 @default.
W2898833362 cites W2265047766 @default.
W2898833362 cites W2271948182 @default.
W2898833362 cites W2316119555 @default.
W2898833362 cites W2317846056 @default.
W2898833362 cites W2319834315 @default.
W2898833362 cites W2323065125 @default.
W2898833362 cites W2327143944 @default.
W2898833362 cites W2330465751 @default.
W2898833362 cites W2345073369 @default.
W2898833362 cites W2404878861 @default.
W2898833362 cites W2558077430 @default.
W2898833362 cites W2566313133 @default.
W2898833362 cites W2592316578 @default.
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W2898833362 doi "https://doi.org/10.1016/j.ijhydene.2018.10.029" @default.
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