Nonthermal Plasma-Modified Carbon-Carrying Sn-Based Ternary Nanocatalyst for High-Performance Direct Dimethyl Ether Fuel Cells

Medhanie Gebremedhin Gebru, Hannan Teller, Palaniappan Subramanian, Alex Schechter

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

A Vulcan XC72 carbon-supported Sn-based ternary metal catalyst (Pt3Pd3Sn2/C) is reported to have yielded the highest specific power density (90 mW mg−1PGM) as compared with other catalysts tested for direct dimethyl ether (DME) fuel cells. However, the micropores present in Vulcan XC72 limit fuel utilization by causing Pt agglomeration. Vulcan XC72 composed of nongraphitized carbon species is also prone to corrosion. Therefore, herein, carbon supports such as multiwalled carbon nanotubes (MWCNT), black pearl 2000 (BP2000), and their cold N2 plasma-treated counterparts are tested to further enhance the activity of the catalyst and systematically describe the comparative advantages over the Vulcan XC-72 carbon. Electroanalytical tests show that Pt3Pd3Sn2/BP2000 exhibit excellent performance in terms of electrochemical active surface area, peak current density, and DME oxidation charge. A beneficial effect of plasma activation on the activity is observed only in the case of MWCNT while having no or negative effect on the other carbons. Laboratory fuel cell test indicates that Pt3Pd3Sn2 nanoparticles supported on optimized binary carbon support containing 75% plasma-activated MWCNT and 25% BP2000 (Pt3Pd3Sn2/75M25B) provides the highest reported power density of 117 mW mg−1PGM at 70 °C fuel cell temperature and ambient pressure.

Original languageEnglish
Article number2200835
JournalEnergy Technology
Volume10
Issue number11
DOIs
StateE-pub ahead of print - 18 Sep 2022

Keywords

  • cold plasma treatment
  • dimethyl ether (DME)
  • direct DME fuel cells (DDMEFC)
  • mixed carbon support
  • platinum group metals (PGM)

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