Enhancement in carbon dioxide activity and stability on nanostructured silver electrode and the role of oxygen

Authors
Jee, Michael ShincheonJeon, Hyo SangKim, CheongheeLee, HangilKoh, Jai HyunCho, JinhanMin, Byoung KounHwang, Yun Jeong
Issue Date
2016-01
Publisher
ELSEVIER SCIENCE BV
Citation
APPLIED CATALYSIS B-ENVIRONMENTAL, v.180, pp.372 - 378
Abstract
Current energy production habits deplete fossil fuels and accumulate atmospheric CO2, which contribute to the global climate change. Electrochemical fuel production via CO2 reduction reaction is an idealistic yet an achievable process that mitigates CO2 emissions and simultaneously satisfies energy demands. Here, the enhancement of CO2 reduction activity and stability on size-controlled particulate Ag electrocatalysts derived from a simple, one-step cyclic voltammetry (CV) process by changing scan rates (1-200 mV/s) was demonstrated. Interestingly, larger nanoparticles prepared by slower scan rates (1-5 mV/s) have exhibited the most degree of enhancement for CO2 reduction to CO product. Compared to untreated Ag foil, nanostructured Ag electrode has shown an anodic shift of approximately 200 mV in the onset potential of CO partial current density (J(CO)), 160 mV reduction of overpotential j(CO) = 10 mA/cm(2), and increased Faradaic efficiency (F.E.) for CO production especially at lower biased potentials (-0.89 to -1.19V vs. RHE). Stability tests have demonstrated a drastic improvement in maintaining CO F.E. Xray photoelectron spectroscopy suggests that the enhancement is associated with stable oxygen species incorporated on the nanoparticle Ag surfaces during the CV fabrication process. (C) 2015 Elsevier B.V. All rights reserved.
Keywords
CO2 REDUCTION; ELECTROCATALYTIC REDUCTION; CONVERSION; SELECTIVITY; CATALYSTS; ENERGY; CO2 REDUCTION; ELECTROCATALYTIC REDUCTION; CONVERSION; SELECTIVITY; CATALYSTS; ENERGY; Electrochemical CO2 reduction; Nanoparticle; Silver; Overpotential; Cyclic voltammetry
ISSN
0926-3373
URI
https://pubs.kist.re.kr/handle/201004/124564
DOI
10.1016/j.apcatb.2015.06.046
Appears in Collections:
KIST Article > 2016
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