Electrocatalytic properties of bimetallic surfaces for the oxygen reduction reaction

T. Ezeta-Mejía; O. Solorza-Feria; H. J. Dorantes-Rosales; J. M.Hallen López; E. M. Arce-Estrada

Electrocatalytic properties of bimetallic surfaces for the oxygen reduction reaction

T. Ezeta-Mejía, O. Solorza-Feria, H. J. Dorantes-Rosales, J. M.Hallen López, E. M. Arce-Estrada

Escuela Superior de Ingeniería Química e Industrias Extractivas (ESIQIE)

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

The physical characterization of nanocrystalline RuM (M=Se,Mo,W,Sn) prepared by mechanical alloying (MA) technique at different milling times shows the formation of mixture of phases (FeSe₂, Fe₂O₃, Ru and Se), solid solution (Ru and Mo), Ru₃W₂ and RuSn₂ intermetallic compounds with nanocrystalline nature of 2 to 20 nm in size. The activity of the nanocatalysts supported on Vulcan carbon was investigated by rotating disk electrode for the oxygen reduction reaction (ORR) in 0.5 H₂SO₄. Results reveal improved specific activities toward the ORR with multielectron transfer process (n=4e-) to water formation. The effect of temperature on the ORR kinetics was also investigated, concluding that the Tafel slope is temperature invariant while the transfer coefficient shows important dependence.

Original language	English
Pages (from-to)	8940-8957
Number of pages	18
Journal	International Journal of Electrochemical Science
Volume	7
Issue number	9
State	Published - 2012

Keywords

Electrocatalyst
Mechanical alloying
Oxygen reduction
Ruthenium

Cite this

@article{54f681cc394d4597b5aa5b3d4062264a,

title = "Electrocatalytic properties of bimetallic surfaces for the oxygen reduction reaction",

abstract = "The physical characterization of nanocrystalline RuM (M=Se,Mo,W,Sn) prepared by mechanical alloying (MA) technique at different milling times shows the formation of mixture of phases (FeSe2, Fe2O3, Ru and Se), solid solution (Ru and Mo), Ru3W2 and RuSn2 intermetallic compounds with nanocrystalline nature of 2 to 20 nm in size. The activity of the nanocatalysts supported on Vulcan carbon was investigated by rotating disk electrode for the oxygen reduction reaction (ORR) in 0.5 H2SO4. Results reveal improved specific activities toward the ORR with multielectron transfer process (n=4e-) to water formation. The effect of temperature on the ORR kinetics was also investigated, concluding that the Tafel slope is temperature invariant while the transfer coefficient shows important dependence.",

keywords = "Electrocatalyst, Mechanical alloying, Oxygen reduction, Ruthenium",

author = "T. Ezeta-Mej{\'i}a and O. Solorza-Feria and Dorantes-Rosales, {H. J.} and L{\'o}pez, {J. M.Hallen} and Arce-Estrada, {E. M.}",

year = "2012",

language = "Ingl{\'e}s",

volume = "7",

pages = "8940--8957",

journal = "International Journal of Electrochemical Science",

issn = "1452-3981",

number = "9",

}

TY - JOUR

T1 - Electrocatalytic properties of bimetallic surfaces for the oxygen reduction reaction

AU - Ezeta-Mejía, T.

AU - Solorza-Feria, O.

AU - Dorantes-Rosales, H. J.

AU - López, J. M.Hallen

AU - Arce-Estrada, E. M.

PY - 2012

Y1 - 2012

N2 - The physical characterization of nanocrystalline RuM (M=Se,Mo,W,Sn) prepared by mechanical alloying (MA) technique at different milling times shows the formation of mixture of phases (FeSe2, Fe2O3, Ru and Se), solid solution (Ru and Mo), Ru3W2 and RuSn2 intermetallic compounds with nanocrystalline nature of 2 to 20 nm in size. The activity of the nanocatalysts supported on Vulcan carbon was investigated by rotating disk electrode for the oxygen reduction reaction (ORR) in 0.5 H2SO4. Results reveal improved specific activities toward the ORR with multielectron transfer process (n=4e-) to water formation. The effect of temperature on the ORR kinetics was also investigated, concluding that the Tafel slope is temperature invariant while the transfer coefficient shows important dependence.

AB - The physical characterization of nanocrystalline RuM (M=Se,Mo,W,Sn) prepared by mechanical alloying (MA) technique at different milling times shows the formation of mixture of phases (FeSe2, Fe2O3, Ru and Se), solid solution (Ru and Mo), Ru3W2 and RuSn2 intermetallic compounds with nanocrystalline nature of 2 to 20 nm in size. The activity of the nanocatalysts supported on Vulcan carbon was investigated by rotating disk electrode for the oxygen reduction reaction (ORR) in 0.5 H2SO4. Results reveal improved specific activities toward the ORR with multielectron transfer process (n=4e-) to water formation. The effect of temperature on the ORR kinetics was also investigated, concluding that the Tafel slope is temperature invariant while the transfer coefficient shows important dependence.

KW - Electrocatalyst

KW - Mechanical alloying

KW - Oxygen reduction

KW - Ruthenium

UR - http://www.scopus.com/inward/record.url?scp=84871111599&partnerID=8YFLogxK

M3 - Artículo

SN - 1452-3981

VL - 7

SP - 8940

EP - 8957

JO - International Journal of Electrochemical Science

JF - International Journal of Electrochemical Science

IS - 9

ER -

Electrocatalytic properties of bimetallic surfaces for the oxygen reduction reaction

Abstract

Keywords

Other files and links

Fingerprint

Cite this