Eneli Härk scite author profile

The carbon-supported Pt nanoclusters (20 wt% metal) electrodes have been tested as oxygen reduction catalysts in 0.1M KOH solutions. The novel non-conventional microporous-mesoporous carbide derived carbon powder, synthesized from molybdenum carbide (Mo 2 C) at 750 • C using the high-temperature chlorination method, has been used as an electrocatalyst support for oxygen electroreduction. For comparison, the corresponding parameters for commercially available VulcanXC72 and (20 wt%) Pt-VulcanXC72 have been obtained. Results of the X-ray diffraction analysis show that the Pt nanoclusters have been deposited mainly as the face-centered cubic (fcc) crystals at both carbon supports. The Pt particles were distributed uniformly on the porous carbon supports, and the average particle size of the Pt nanoclusters at (20 wt%) Pt-C(Mo 2 C) and at (20 wt%) Pt-VulcanXC72 were 42 and 57 Å, respectively. The (20 wt%) Pt-C(Mo 2 C) catalyst demonstrated higher activity (calculated effective electrochemical surface area A eff = 0.485 cm 2 ) with high specific surface area S BET = 1600 m 2 g −1 toward the oxygen electroreduction reaction at room temperature compared with that for the (20 wt%) Pt-VulcanXC72 (A eff = 0.320 cm 2 ) with S BET = 180 m 2 g −1 . The four-electron oxygen reduction mechanism has been established for both, i.e., the (20 wt%) Pt-C(Mo 2 C) and (20 wt%) Pt-VulcanXC72 catalysts based electrodes.

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Electrochemical and physical characterization of Pt–Ru alloy catalyst deposited onto microporous–mesoporous carbon support derived from Mo2C at 600 °C

Vaarmets

Sepp

Nerut

et al. 2013

J Solid State Electrochem

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Eneli Härk

Pt and Pt–Ru catalysts for polymer electrolyte fuel cells deposited onto carbide derived carbon supports

Electrochemical impedance characteristics and electroreduction of oxygen at tungsten carbide derived micromesoporous carbon electrodes

Influence of specific surface area and microporosity-mesoporosity of pristine and Pt-nanoclusters modified carbide derived carbon electrodes on the oxygen electroreduction

Investigation of a Carbon-Supported Pt Electrode for Oxygen Reduction Reaction in 0.1M KOH Aqueous Solution

Electrochemical and physical characterization of Pt–Ru alloy catalyst deposited onto microporous–mesoporous carbon support derived from Mo2C at 600 °C

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