Environmental Engineering Reference
In-Depth Information
Stadler R, Jusys Z, Baltruschat H. 2002. Hydrogen evolution during the oxidation of formal-
dehyde on Au: The influence of single crystal structure and Tl-upd. Electrochim Acta 47:
4485 - 4500.
Stonehart P, Kohlmayr G. 1972. Effect of poisons on the kinetic parameters for platinum elec-
trocatalyst sites. Electrochim Acta 17: 369 - 382.
Sun S-G. 1998. Studying electrocatalytic oxidation of small organic molecules with in-situ
infrared spectroscopy. In: Lipkowski J, Ross PN, editors. Electrocatalysis. New York:
Wiley-VCH. pp. 243 - 290.
Sun S-G, Clavilier J. 1987. Electrochemical study on the poisoning intermediate formed from
methanol dissociation at low-index and stepped platinum surfaces. J Electroanal Chem
236: 95 - 112.
Sun S-G, Yang Y-Y. 1999. Studies of kinetics of HCOOH oxidation on Pt(100),
Pt(110), Pt(111), Pt(510) and Pt(911) single crystal electrodes. J Electroanal Chem 467:
121 - 131.
Sun S-G, Clavilier J, Bewick A. 1988. The mechanism of electrocatalytic oxidation of formic
acid on Pt(100) and Pt(111) in sulphuric acid solution: An EMIRS study. J Electroanal
Chem 240: 147 - 159.
Sun S-G, Lin Y, Li N-H, Mu J-Q. 1994. Kinetics of dissociative adsorption of formic acid on
Pt(100), Pt(610), Pt(210) and Pt(110) single crystal electrodes in perchloric acid solutions.
J Electroanal Chem 370: 273 - 280.
Tarnowski DJ, Korzeniewski C. 1997. Effects of surface step density on the electrochemical
oxidation of ethanol to acetic acid. J Phys Chem B 101: 253 - 258.
Taylor CD, Neurock M. 2005. Theoretical insights into the structure and reactivity of the aqu-
eous/metal interface. Curr Opin Solid State Mater Sci 9: 49 - 65.
ten Kortenaar MV, Tessont C, Kolar ZI, van der Weijde H. 1999. Anodic oxidation of formal-
dehyde on gold studied by electrochemical impedance spectroscopy: An equivalent circuit
approach. J Electrochem Soc 146: 2146 - 2155.
ten Kortenaar MV, Kolar ZI, de Goeij JJM, Frens G. 2001. Electrocatalytic oxidation of formal-
dehyde on gold studied by differential electrochemical mass spectrometry and voltammetry.
J Electrochem Soc 148: E327 - E335.
Thomas JM, Thomas WJ. 1997. Principles and Practice of Heterogeneous Catalysis. Weinheim:
VCH.
Tkach I, Panchenko A, Kaz T, Gogel V, Friedrich KA, Roduner E. 2004. In situ study of metha-
nol oxidation on Pt and Pt/Ru-mixed with Nafion anodes in a direct methanol fuel cell by
means of FTIR spectroscopy. Phys Chem Chem Phys 6: 5419 - 5426.
Vielstich W, Xia XH. 1995. Comments on “Electrochemistry of methanol at low index crystal
planes of platinum: An integrated voltammetric and chronoamperometric study.” J Phys
Chem 99: 10421 - 10422.
Wang H, Baltruschat H. 2007. DEMS study on methanol oxidation at poly- and monocrystalline
platinum electrodes: The effect of anion, temperature, surface structure, Ru adatom, and
potential. J Phys Chem C 111: 7038 - 7048.
Wang H, L ¨ ffler T, Baltruschat H. 2001a. Formation of intermediates during methanol
oxidation: A quantitative DEMS study. J Appl Electrochem 31: 759 - 765.
Wang H, Wingender Ch, Baltruschat H, Lopez M, Reetz MT. 2001b. Methanol oxidation on Pt,
PtRu, and colloidal Pt electrocatalysts: A DEMS study of product formation. J Electroanal
Chem 509: 163 - 169.
Search WWH ::
Custom Search