EN

Z.-S. Wu, L. Chen, J. Liu, K. Parvez, H. Liang, J. Shu, H. Sachdev, R. Graf, X. Feng*, K. Müllen*, 
Advanced Materials 2014, 26 (9): 1450-1455.  
DOI:10.1002/adma.201304147  [PDF]

发布时间:2016-03-18    栏目名称:2014

Z.-S. Wu, L. Chen, J. Liu, K. Parvez, H. Liang, J. Shu, H. Sachdev, R. Graf, X. Feng*, K. Müllen*,
Advanced Materials 2014, 26 (9): 1450-1455. 
DOI:10.1002/adma.201304147  [PDF]

Abstract
Metalloporphyrin (Fe, Co)-based conjugated porous polymer frameworks are new high-surface-area porous materials consisting of an extended conjugated skeleton and inherent mesopores. These porous polymers have exhibited great potential in gas sorption/separation and catalysis. Given their unique carbon-rich skeleton with inherent metal–nitrogen coordination, herein we demonstrate novel high-performance self-supported oxygen reduction electrocatalysts obtained through the template-free pyrolysis of cobalt porphyrin-based conjugated mesoporous polymer (CoP-CMP) frameworks. The resulting cobalt-nitrogen doped carbons possess unique features, such as a ribbon-shaped morphology, a high surface area, and a mesoporous structure (4–20 nm). Further, they contain uniformly distributed cobalt nanoparticles embedded in a nitrogen-enriched carbon matrix. As a result, these cobalt–nitrogen-doped porous carbons display an outstanding catalytic performance toward the ORR in alkaline media, such as a more-positive half-wave potential (−0.18 V vs. AgCl/Ag), a high and stable limiting current ( ∼ 4.62 mA cm −2 ), excellent stability ( ∼ 96.7% retention after 1000 cycles), and almost a four-electron transfer pathway, all of which are superior to commercial 20 wt% platinum–carbon (Pt/C) catalysts. Moreover, these novel catalysts can mediate the ORR process in acidic media with excellent activity in terms of half-wave potential ( ∼ 0.64 V vs. RHE), limiting current ( ∼ 4.84 mA cm −2 ), high stability ( ∼ 94.5% retention after 1000 cycles), and high electron transfer number ( ∼ 3.94) comparable with Pt/C.

中国科学院大连化学物理研究所

大连市中山路457号

邮编:116023

版权所有 © 二维材料化学与能源应用研究组

首页 / 组长简介 / 研究方向 / 研究组成员 / 发表论文 / 新闻 / 联系我们