| Literature DB >> 24067782 |
Yuewei Zhang1, Jun Ge, Lu Wang, Donghong Wang, Feng Ding, Xiaoming Tao, Wei Chen.
Abstract
Catalysts for oxygen reduction reaction (ORR)Entities:
Year: 2013 PMID: 24067782 PMCID: PMC3783894 DOI: 10.1038/srep02771
Source DB: PubMed Journal: Sci Rep ISSN: 2045-2322 Impact factor: 4.379
Figure 1Typical TEM images of N-doped graphene.
(a) NCM5, (b) NCM57, (c) NCM58, (d) NCM59. Scale bar is 0.5 μm for (a, c, d) and 1 μm for (b).
Figure 2Structure characterizations of N-graphene derived from glucose and melamine.
(a) XRD patterns. (b) Thermo Gravimetric Analyzer (TGA) measurements. (c) Raman spectra of different samples. (d) I-V plots.
Figure 3Elemental analysis of NCM57, NCM58 and NCM59.
(a) The content of C, N and O in three samples. High resolution N1s XPS spectra of (b) NCM57, (c) NCM58 and (d)NCM59. High resolution C1s XPS spectra of (e) NCM57, (f) NCM58 and (g) NCM59.
Figure 4Electrocatalytic activities measurement for NCM5 series, NCU58, graphene and Pt/C (20%).
(a) CV in O2 saturated 0.1 M KOH solutions. (b) Rotating Ring-Disk Electrodes LSV at 1600 rpm. (c) Koutecky-Levich plots at different potential for NCM58. (d) Electron-transfer numbers at −0.9 V.
Figure 5ORR dependence.
(a) Content curves of total N, pyridinic N and graphitic N and (b) ORR activities at −0.9 V for NCM57, NCM58, NCM59.
Figure 6Long time stability and tolerance to alcohol poisoning.
(a) The relative ORR cathodic current-time response (1600 rpm) at NCM58 and Pt/C (20%) electrodes at −0.5 V in O2 saturated 0.1 M KOH before and after adding methanol (3 M). (b) The relative ORR cathodic current-time response (1600 rpm) at NCM58 and Pt/C (20%) electrodes at −0.5 V in O2 saturated 0.1 M KOH for 3000 s.
Figure 7The formal scheme of oxygen reduction on N-graphene.
The blue, grey, red, white atoms refer to N, C, O and H respectively.
Figure 8Calculated theoretical results.
(a) The percentage (the number of C atoms with a charge density larger than 0.15 divided by the total number of C atoms in the graphene) as the function of N content in graphene; (b) structural model for the N-doped graphene with the N content of 25% (corresponding to the NCU58 sample); (c) the spin density distribution on the electron density isovalue plane corresponding to the model in (b), and the most positive value is purple while the most negative value is blue.