| Literature DB >> 29862591 |
Ali Shahraei1,2, Ioanna Martinaiou1,3, K Alexander Creutz3, Markus Kübler2, Natascha Weidler3, Simon T Ranecky3, W David Z Wallace2, Mohammad Ali Nowroozi3, Oliver Clemens3, Robert W Stark3, Ulrike I Kramm1,2,3.
Abstract
Today, metal-N- as well as metal-S-doped carbon materials are known to catalyze the hydrogen evolution reaction (HER). However, especially N- and S-co-doped catalysts reach highest activity, but it remains unclear if the activity is related to MNx or MSy (M=metal) sites. In this work we apply a simple method for multi-heteroatom doping and investigate the effect of cobalt content on the HER in acidic medium. The CoNx and CoSy sites were evidenced on the basis of structural characterization by Raman, X-ray induced photoelectron spectroscopy, and TEM. The presence of sulfur enables the formation of a larger number of CoNx sites. Structure-performance relationship proves that the HER activity is dominated by CoNx rather than CoSy sites. The most active catalysts also exhibit an excellent stability under galvanostatic conditions making them of interest for electrolyser application.Entities:
Keywords: carbon; cobalt; energy conversion; heterogeneous catalysis; hydrogen evolution reaction; non-precious metal catalysts
Year: 2018 PMID: 29862591 DOI: 10.1002/chem.201802684
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236