Pre-prints
Pre-prints of the Faraday Discussion papers are provided to participants of the meeting in order that questions to the authors and further comments may be prepared in advance of the meeting. Most of the time at the meeting will be devoted to a discussion that will be conducted on the assumption that the papers have already been read.
Authors should note that these pre-prints are not proofs. Proofs of each paper will be sent to the authors immediately after the meeting itself.
Please note that the quality of the pdf and pre-print is lower than that of the final published volume. The pre-prints are on A4 size paper; however the actual size of the final published volume will be the smaller book-style size.
To see the Scientific Programme with paper titles and timings please download the pdf programme available from the In this section links.
The following speakers will also present their work at FD140:
Introductory Lecture
M. Koper, Leiden University, The Netherlands
Concluding Remarks
David Schiffrin, University of Liverpool, UK
Downloadable Files
140/02. The role of anions in surface electrochemistryD. V. Tripkovic, D. van der Vliet, V. Stamenkovic and N. M. Markovic, University of Chicago, US
PDF
140/03. Nanoparticle catalysts with high energy surfaces and enhanced activity synthesized by electrochemical methodN. Tian, Z.-Y. Zhou, Z.-Z. Huang, D.-J. Chen and S.-G. Sun, Xiamen University, China PDF
140/04. Bridging the gap between nanoparticles and single crystal surfacesP. Kaghazchi, F. C. Simeone, K. A. Soliman, L. A. Kibler and T. Jacob, Fritz-Haber-Institut der Max-Planck-Gesellschaft and Ulm University, Germany PDF
140/05. Surface dynamics at well-defined single crystal microfacetted Pt(111) electrodes: PDF
140/06. From ultra-high vacuum to the electrochemical interface: X-ray scattering studies of model electrocatalystsC. A. Lucas, M. Cormack, M. E. Gallagher, A. Brownrigg, P. Thompson, B. Fowler, Y. Grunder, J. Roy, V. Stamenkovic and N. M. Markovic, University of Liverpool, UK, European Synchrotron Radiation Facility, France and Argonne National Laboratory, US PDF
140/07. Differential reactivity of Cu(111) and Cu(100) during nitrate reduction in acid electrolyteS.-E. Bae and A. A. Gewrith, University of Illinois, US PDF
140/08. Spectroelectrochemical flow cell with temperature control for investigation of electrocatalytic systems with surface-enhanced Raman spectroscopyB. Ren, X.-B. Lian, J.-F. Li, P.-P. Fang, Q.-P. Lai and Z.-Q. Tian, Xiamen University, China PDF
140/09. Molecular structure at electrode/electrolyte solution interfaces related to electrocatalysisH. Noguchi, T. Okada, K. Uosaki, Hokkaido University, Japan PDF
140/10. Aqueous-based synthesis of ruthenium-selenium catalyst for oxygen reduction reactionC. Delacote, A. Bonakdarpour, C. M. Johnston, P. Zelenay and A. Wieckowski, University of Illinois at Urbana-Champaign, US and Los Alamos National Laboratory, US PDF
140/11. Co-adsorbtion of Cu and Keggin type polytungstates on polycrystalline Pt: interplay of atomic and molecular UPDG. Tsirlina, E. Mishina, E. Timofeeva, N. Tanimura, N. Sherstyuk, M. Borzenko, S. Nakabayashi and O. Petrii, Moscow State University, Russia, Moscow Institute of Radioengineering, Electronics and Automation, Russia and Saitama University, Japan PDF
140/12. A comparative in situ 195Pt electrochemical-NMR investigation of PtRu nanoparticles supported on diverse carbon nanomaterialsF. Tang, A. L. Danberry, I.-S. Park, Y.-E. Sung and Y.Y. Tong, Georgetown University, US and Seoul National University, S. Korea PDF
140/13. On the catalysis of the hydrogen oxidationE. Santos, K. Potting, and W. Schmickler, Universidad Nacional de Cordoba, Argentina and University of Ulm, Germany PDF
140/14. Hydrogen evolution on nano-particulate transition metal sulfidesJ. Bonde, P. G. Moses, T. F. Jaramillo, J. K. Norskov and I. Chorkendorff, Technical University of Denmark, Denmark and Stanford University, US PDF
140/15. Influence of water on elementary reaction steps in electrocatalysisY. Gohda, S. Schnur and A. Gross, Ulm University, Germany PDF
140/16. Steady state oxygen reduction and cyclic voltammetryJ. Rossmeisl, G. S. Karlberg, T. Jaramillo and J. K. Norskov, Technical University of Denmark, Denmark PDF
140/17. Intrinsic kinetic equation for oxygen reduction reaction in acidic media: the double Tafel slope and fuel cell applicationsJ. X. Wang, F. A. Uribe, T. E. Springer, J. L. Zhang and R. R. Adzic, Brookhaven National Laboratory, US, Los Alamos National Laboratory, US and General Motors Corporation, US PDF
140/18. Size and composition distribution dynamics of alloy nanoparticle electrocatalysts probed by anomalous small angle X-ray scattering (ASAXS)C. F. Yu, S. Koh, J. E. Leisch, M. F. Toney and P. Strasser, University of Houston and Stanford Linear Accelerator Center, US PDF
140/19. Efficient electrocatalytic oxygen reduction by the 'blue' copper oxidase, laccase, directly attached to chemically modified carbonsC. F. Blanford, C. E. Foster, R. S. Heath and F. A. Armstrong, University of Oxford, UK PDF
140/20. Mesoscopic mass transport effects in electrocatalytic processesY. E. Seidl, A. Schneider, Z. Jusys, B. Wickman, B. Kasemo and R. J. Behm, Ulm University, Germany and Chalmers University of Technology, Sweden PDF
140/21. A first principles comparison of the mechanism and site requirements for the electrocatalytic oxidation of methanol and formic acid over PtM. Neurock, M. Janik and A. Wieckowski, University of Virginia, Pennsylvania State University and University of Illinois, US PDF
140/22. Surface structure effects on the electrochemical oxidation of ethanol on platinum single crystal electrodesF. Colmati, G. Tremiliosi-Filho, E. R. Gonzalez, A. Berna, E. Herrero and J. M. Feliu, Carlos Universidade de Sao Paulo, Brazil and Universidad de Alicante, Spain PDF
140/23. Electro-oxidation of ethanol and acetaldehyde on platinum single-crystal electrodesS. C. S. Lai and M. T. M. Koper, Leiden University, The Netherlands PDF
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