Fe–N–C electrocatalyst with dense active sites and efficient mass transport for high-performance proton exchange membrane fuel cells-Reference-Cited by-同舟云学术

登录注册会员服务联系我们

Fe–N–C electrocatalyst with dense active sites and efficient mass transport for high-performance proton exchange membrane fuel cells

Published:2019-03 Issue:3 Volume:2 Page:259-268
ISSN:2520-1158
Container-title:Nature Catalysis
language:en
Short-container-title:Nat Catal

Author:

Wan Xin^ORCID,Liu Xiaofang,Li Yongcheng,Yu Ronghai,Zheng Lirong,Yan Wensheng^ORCID,Wang Hui,Xu Ming,Shui Jianglan

Publisher

Springer Science and Business Media LLC

Subject

Process Chemistry and Technology,Biochemistry,Bioengineering,Catalysis

Link

http://www.nature.com/articles/s41929-019-0237-3.pdf

Reference56 articles.

1. Debe, M. K. Electrocatalyst approaches and challenges for automotive fuel cells. Nature 486, 43–51 (2012).

2. Shao, M., Chang, Q., Dodelet, J.-P. & Chenitz, R. Recent advances in electrocatalysts for oxygen reduction reaction. Chem. Rev. 116, 3594–3657 (2016).

3. Wu, G., More, K. L., Johnston, C. M. & Zelenay, P. High-performance electrocatalysts for oxygen reduction derived from polyaniline, iron, and cobalt. Science 332, 443–447 (2011).

4. Gasteiger, H. A., Kocha, S. S., Sompalli, B. & Wagner, F. T. Activity benchmarks and requirements for Pt, Pt-alloy, and non-Pt oxygen reduction catalysts for PEMFCs. Appl. Catal. B 56, 9–35 (2005).

5. Chen, C. et al. Highly crystalline multimetallic nanoframes with three-dimensional electrocatalytic surfaces. Science 343, 1339–1343 (2014).

Cited by 1079 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Microstructure and bionic engineering of triphase reaction interface for zinc-air batteries;Progress in Materials Science;2025-01

2. Identification of true active sites in N-doped carbon-supported Fe2P nanoparticles toward oxygen reduction reaction;Journal of Colloid and Interface Science;2025-01

3. Coexisting single-atomic Fe and Fe2O3 on nitrogen-deficient g-C3N4 with enriched Fenton-like oxidation and photocatalytic performances for tetracycline degradation: DFT calculation, degradation mechanism and toxicity evaluation;Separation and Purification Technology;2024-12

4. Degradation Analysis for Platinum Group Metal-Free Fuel Cell Cathodes;Electrochimica Acta;2024-11

5. Structural engineering of Fe single-atom oxygen reduction catalyst with high site density and improved mass transfer;Journal of Energy Chemistry;2024-11

同舟云学术

1.学者识别学者识别

2.学术分析学术分析

3.人才评估人才评估

"同舟云学术"是以全球学者为主线，采集、加工和组织学术论文而形成的新型学术文献查询和分析系统，可以对全球学者进行文献检索和人才价值评估。用户可以通过关注某些学科领域的顶尖人物而持续追踪该领域的学科进展和研究前沿。经过近期的数据扩容，当前同舟云学术共收录了国内外主流学术期刊6万余种，收集的期刊论文及会议论文总量共计约1.5亿篇，并以每天添加12000余篇中外论文的速度递增。我们也可以为用户提供个性化、定制化的学者数据。欢迎来电咨询！咨询电话：010-8811{复制后删除}0370

www.globalauthorid.com

TOP

Copyright © 2019-2024 北京同舟云网络信息技术有限公司
京公网安备11010802033243号京ICP备18003416号-3