Method for preparing a carbon-supported, platinum-cobalt alloy, nanoparticle catalyst

Assignee

• KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY · KR

Inventors

• Jong Hyun JANG · Seoul, KR
• Hee-Young Park · Seoul, KR
• Jea-woo Jung · Seoul, KR
• Hyoung-Juhn Kim · Seojong-myeon, KR
• Dirk Henkensmeier · Seoul, KR
• Sung Jong YOO · Seoul, KR
• Jin Young Kim · Seoul, KR
• So-Young Lee · Daejeon, KR
• Hyun Seo PARK · Daejeon, KR

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02E60/50
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

A method for preparing a carbon-supported, platinum-cobalt alloy, nanoparticle catalyst includes mixing a solution containing, in combination, a platinum precursor, a transition metal precursor consisting of a transition metal that is cobalt, carbon, a stabilizer that is oleyl amine, and a reducing agent that is sodium borohydride to provide carbon-supported, platinum-cobalt alloy nanoparticles, and washing the carbon-supported, platinum-cobalt alloy, nanoparticles using ethanol and distilled water individually or in combination followed by drying at room temperature to obtain dried carbon-supported, platinum-cobalt alloy, nanoparticles; treating the dried carbon-supported, platinum-cobalt alloy, nanoparticles with an acetic acid solution having a concentration ranging from 1-16M to provide acetic acid-treated nanoparticles, and washing the acetic acid-treated nanoparticles using distilled water followed by drying at room temperature to obtain dried acetic acid-treated nanoparticles; and heat treating the dried acetic acid-treated nanoparticles at a temperature ranging from 600 to 1000° C. under a hydrogen-containing atmosphere.