(partial list)
| Borguet E | University of Pittsburgh | Dynamics of Nanoscale Assembly at Electrochemical Interfaces | |
| Chan KY | University of Hong Kong | Supported Mixed Metal Nanoparticles for Fuel Cell Electrodes | |
| Chen S | Southern Illinois University | Electronic Conductivity of Nanoparticle Monolayers at the Air|Water Interface | |
| Christensen P | Newcastle University | The Identification of CO Adsorbed at Ru and Pt Sites on A Polycrystalline Pt/Ru Electrode and The Observation of Their Oxidation and Free Interchange under Open Circuit Conditions | |
| Dong SJ | Changchun Institute of Applied Chemistry | Organized Nanostructure Assembies and Interfacial Electrochemistry | |
| Feliu J | University of Alicante | Electrochemical characterization of nanoparticle’s surface structure | |
| Gooding J | The University of New South Wales | Using Carbon Nanotubes, DNA and other ‘Molecular Wires’ to Transfer Electrons Over Long Distances: Applications to Sensing and Bioelectronics | |
| Hasegawa H | Hokkaido University | Use of electrochemical processes for formation of semiconductor nanostructures | |
| Heinze J | University of Freiburg | The Scanning Electrochemical Microscope as a Versatile Tool for Characterizing and Modifying Solutions and Surfaces in (Micro- and) Nanodimensions | |
| Kim H | Seoul National University | Preparation of Nano-sized Materials Using Ordered Porous Alumina Membrane Templates | |
| Kolb DM | University of Ulm | Electrochemical nanostructuring: Present and Future | |
| Leger JM | Université de Poitiers | Preparation and electrochemical modification of bimetallic nanoparticles for electrocatalytic reactions | |
| Leiva EPM | University of Nacl Cordoba | Computer Simulation of Electrochemical Nanostructuring | |
| Maier J | Max-Planck-Institut fuer Festkoerperforschung | Nano-ionics: interfaces and size effects in solid electrolytes and solid electrodes | |
| Osaka T | Waseda University | New Trends on Electrochemical Nanotechnology | |
| Osawa M | Hokkaido University | Surface-Enhanced Infrared Study of Hydrogen Bonding between Complimentary Bases at the Electrochemical Interface | |
| Park S | Pohang University of Sci. and Tech. | Electrical Properties of Conducting Polymer Films and Nanowires Probed by Current-Sensing Atomic Force Microscopy | |
| Pettinger B | Fritz-Haber-Institut | Tip-enhanced Raman spectroscopy at metal surfaces. Recent developments and perspectives | |
| Schiffrin DJ | The UniVersity of Liverpool | Structure and Electrochemical Properties of Functionalised Nanoparticles and Molecular Linkers | |
| Schindler W | University of Karlsruhe | Nanoelectrochemistry and Nanophysics at Solid/Liquid Interfaces under Potential Control | |
| Schuster R | Fritz-Haber-Institut | Nanoscale self-assembly on a Au electrode by electrochemically driven spinodal decomposition | |
| Sun SG | Xiamen University | Particular IR Properties of Low-dimensional Nanomaterial Electrodes | |
| Tadjeddine A | University of Paris | Nonlinear optical technical techniques as a potential vibrational probe of nanostructures in the electrochemical environment | |
| Tao NJ | Arizona State University | Measurement of Single Molecule Conductance in Electrochemical Cells | |
| Ulstrup J | Tech University of Denmark | Electrochemistry and Bioelectrochemistry towards the Nanoscale and Single-Molecule Levels: Theoretical Notions and Some Systems | |
| Uosaki K | Hokkaido University | Electrochemical Oxidative Formation and Reductive Dsorption of Self-assembled Monolayer of Alkanethiol on Au(111) Surface | |
| Wan LJ | Institute of Chemistry, CAS | Well-defined molecular structure and nanomaterials |
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