Alicja Schlange scite author profile

SummaryIn this contribution we present for the first time a continuous process for the production of highly active Pt catalysts supported by carbon nanotubes by use of an electrically heated tubular reactor. The synthesized catalysts show a high degree of dispersion and narrow distributions of cluster sizes. In comparison to catalysts synthesized by the conventional oil-bath method a significantly higher electrocatalytic activity was reached, which can be attributed to the higher metal loading and smaller and more uniformly distributed Pt particles on the carbon support. Our approach introduces a simple, time-saving and cost-efficient method for fuel cell catalyst preparation in a flow reactor which could be used at a large scale.

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Alicja Schlange

Microwave assisted synthesis of surfactant stabilized platinum/carbon nanotube electrocatalysts for direct methanol fuel cell applications

Titanium carbide-derived carbon as a novel support for platinum catalysts in direct methanol fuel cell application

Effect of the OH−/Pt Ratio During Polyol Synthesis on Metal Loading and Particle Size in DMFC Catalysts

Continuous preparation of carbon-nanotube-supported platinum catalysts in a flow reactor directly heated by electric current

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