One-step synthesis of carbon-supported electrocatalysts

被引:2
|
作者
Tigges, Sebastian [1 ]
Woehrl, Nicolas [1 ]
Radev, Ivan [2 ]
Hagemann, Ulrich [1 ,3 ]
Heidelmann, Markus [1 ,3 ]
Thai Binh Nguyen [1 ,3 ]
Gorelkov, Stanislav [2 ]
Schulz, Stephan [4 ]
Lorke, Axel [1 ]
机构
[1] Univ Duisburg Essen, Fac Phys & CENIDE, Carl Benz Str 199, D-47057 Duisburg, Germany
[2] ZBT GmbH, Hydrogen & Fuel Cell Ctr, Carl Benz Str 201, D-47057 Duisburg, Germany
[3] Univ Duisburg Essen, Interdisciplinary Ctr Analyt Nanoscale, Lotharstr 1, D-47057 Duisburg, Germany
[4] Univ Duisburg Essen, Fac Chem & CENIDE, Univ Str 5-7, D-45141 Essen, Germany
来源
BEILSTEIN JOURNAL OF NANOTECHNOLOGY | 2020年 / 11卷
关键词
electrocatalyst; fuel cells; hybrid nanomaterial; long-term stability; nanoparticle embedding; one-step synthesis; plasma-enhanced; chemical vapor deposition (PE-CVD); OXYGEN REDUCTION REACTION; REDUCED GRAPHENE OXIDE; PLATINUM NANOPARTICLES; PARTICLE-SIZE; PLASMA; NANOWALLS; EVOLUTION;
D O I
10.3762/bjnano.11.126
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
Cost-efficiency, durability, and reliability of catalysts, as well as their operational lifetime, are the main challenges in chemical energy conversion. Here, we present a novel, one-step approach for the synthesis of Pt/C hybrid material by plasma-enhanced chemical vapor deposition (PE-CVD). The platinum loading, degree of oxidation, and the very narrow particle size distribution are precisely adjusted in the Pt/C hybrid material due to the simultaneous deposition of platinum and carbon during the process. The as-synthesized Pt/C hybrid materials are promising electrocatalysts for use in fuel cell applications as they show significantly improved electrochemical long-term stability compared to the industrial standard HiSPEC 4000. The PE-CVD process is furthermore expected to be extendable to the general deposition of metal-containing carbon materials from other commercially available metal acetylacetonate precursors.
引用
收藏
页码:1419 / 1431
页数:13
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