Environmental Engineering Reference
In-Depth Information
Gilman S. 1964. The mechanism of electrochemical oxidation of carbon monoxide and metha-
nol on platinum. II. The “reactant-pair” mechanism for electrochemical oxidation of carbon
monoxide and methanol. J Phys Chem 68: 70 - 80.
Giordano N, Passalacqua E, Pino L, Arico AS, Antonucci V, Vivaldi M, Kinoshita K. 1991.
Analysis of platinum particle-size and oxygen reduction in phosphoric-acid. Electrochim
Acta 36: 1979 - 1984.
Gleiter H. 1992. Materials with ultrafine microstructures: retrospectives and perspectives.
Nanostruct Mater 1: 1 - 19.
Gloaguen F, Andolfatto F, Durand R, Ozil P. 1994. Kinetic-study of electrochemical reactions at
catalyst-recast ionomer interfaces from thin active layer modeling. J Appl Electrochem 24:
863 - 869.
Gloaguen F, L
´
ger JM, Lamy C. 1997. Electrocatalytic oxidation of methanol on platinum
nanoparticles electrodeposited onto porous carbon substrates. J Appl Electrochem 27:
1052 - 1060.
Gloaguen F, Convert P, Gamburzev S, Velev OA, Srinivasan S. 1998. An evaluation of the
macro-homogeneous
and
agglomerate
model
for
oxygen
reduction
in
PEMFCs.
Electrochim Acta 43: 3767 - 3772.
Gojkovic SL, Vidakovic TR. 2001. Methanol oxidation on an ink type electrode using Pt sup-
ported on high area carbons. Electrochim Acta 47: 633 - 642.
Grigorieva LK, Lidorenko NS, Nagaev EL, Chizhik SP. 1987. [Effect of sizes of metal small
particles
and
thin
plates
on
the
rate
of
the
chemical
reactions
on
their
surfaces].
Poverkhnost' 8: 131 - 137 (in Russian).
Guerin S, Hayden BE, Lee CE, Mormiche C, Owen JR, Russell AE, Theobald B, Thompsett D.
2004. Combinatorial electrochemical screening of fuel cell electrocatalysts. J Comb Chem 6:
149 - 158.
Guerin S, Hayden BE, Pletcher D, Rendall ME, Suchsland J-P. 2006a. A combinatorial
approach to the study of particle size effects on supported electrocatalysts: oxygen reduction
on gold. J Comb Chem 8: 679 - 686.
Guerin S, Hayden BE, Pletcher D, Rendall ME, Suchsland J-P, Williams LJ. 2006b.
Combinatorial approach to the study of particle size effects in electrocatalysis: synthesis
of supported gold nanoparticles. J Comb Chem 8: 791 - 798.
Gustavsson M, Fredriksson H, Kasemo B, Jusys Z, Kaiser J, Jun C, Behm RJ. 2004.
Nanostructured platinum-on-carbon model electrocatalysts prepared by colloidal lithogra-
phy. J Electroanal Chem 568: 371 - 377.
Hanson FV, Boudart M. 1978. The reaction between H
2
and O
2
over supported platinum
catalysts. J Catal 53: 56 - 67.
Hayden BE, Pletcher D, Suchsland J-P. 2007. Enhanced activity for electrocatalytic oxidation of
carbon monoxide on titania-supported gold nanoparticles. Angew Chem Int Ed 46:
3530 - 3532.
Henry CR. 1998. Surface studies of supported model catalysts. Surf Sci Rep 31: 235 - 325.
Henry C. 2003. Adsorption and reaction at supported model catalysts. In: Wieckowski A,
Savinova
ER,
Vayenas
CG.
editors.
Catalysis
and
Electrocatalysis
at
Nanoparticle
Surfaces. New York: Marcel Dekker.
Hernandez J, Solla-Gullon J, Herrero E, Aldaz A, Feliu JM. 2005. Characterization of the sur-
face structure of gold nanoparticles and nanorods using structure sensitive reactions. J Phys
Chem B 109: 12651 - 12654.
Search WWH ::
Custom Search