| Literature DB >> 27597939 |
Meng Wang1, Yuyang Hou1, Robert C T Slade2, Jiazhao Wang3, Dongqi Shi3, David Wexler4, Huakun Liu3, Jun Chen1.
Abstract
Here, we demonstrate that Cobalt/Entities:
Keywords: AEM fuel cell; Co/CoO; N-doped reduced graphene oxide aerogel (NGA); electrocatalyst; oxygen reduction reaction
Year: 2016 PMID: 27597939 PMCID: PMC4992675 DOI: 10.3389/fchem.2016.00036
Source DB: PubMed Journal: Front Chem ISSN: 2296-2646 Impact factor: 5.221
Figure 1Schematic illustration of the fabrication process for Co/CoO-NGA based on a hydrothermal method. (A) Dispersion of Co2+/urea/GO; (B) Co/N-doped rGO Hydrogel; (C) Core-shell Co/CoO-N-GA after thermal treatment.
Figure 2(A) XRD patterns of the synthesized products annealed with different temperature, (B–D) SEM images of the Co/CoO-NGA obtained at annealing temperature of 800°C. Red arrow shows the Co/CoO nanoparticles on graphene.
Figure 3(A,B) TEM images, (C) HR-TEM images and (D) STEM images of the Co/CoO-NGA, (E,F) EDS element mapping profile of the Co/CoO-NGA, (E) N, (F) Co, and (G) O.
Figure 4(A) XPS surveys of the synthesized products, (B) high-resolution N1s scan, and (C) high-resolution Co 2p scan of (i) Co/CoO-NGA, (ii) CoO-NGA.
Figure 5Electrochemical performances of the Co/CoO-NGA, Co/CoO-NG, CoO-NGA, NGA, and E-Tek Pt/C electrocatalysts: (A) CV curves of the Co/CoO-NGA and the Pt/C in N. The electrolyte is KOH (aq, 0.1 mol dm−3).
Figure 6Chronoamperometric responses at −0.3 V (vs. Ag/AgCl) of the Co/CoO-NGA and E-Tek Pt/C at 1600 rpm: (A) with the addition of oxygen and methanol (1 mol dm-3), (B) in pure O Polarization curves of AEMFC single cells containing Co/CoO-NGA and E-Tek Pt/C as cathode electrocatalysts, respectively. (D) Comparisons of current density at 0.6 V and maximum power density derived from the single cell tests in (C).