Scientific Program


Plan your own schedule: Scientific program (incl. abstracts)

Scientific Program (pdf-download, 271 KB)

The following scientists have agreed to deliver lectures:

Plenary Lectures
 
Christian Amatore, École Normale Supérieure (Paris)
Investigating Oxidative Stress at the Single Cell Level 
 
Katharina Krischer, Technical University Munich (Munich)
New views on electrocatalysis: From fluctuation enhanced reaction rates on nanoelectrodes to mesoscopic pattern formation 

Daniel Mandler, The Hebrew University Jerusalem (Jerusalem)
Electro-assisted deposition of Thin Films: Applications from Corrosion Prevention to Biomedical Engineering

Martin Winter, University of Münster (Münster) 
Electro-Mobility: Materials, Electrochemistry, Application

Keynote Lectures

Rolf Breinbauer, Technical University Graz (Graz)
Electrochemical Methods in Highthroughput Synthesis

Frank Endres, Technical University Clausthal (Clausthal-Zellerfeld)
Electrochemical double layers and multi layers in ionic liquids

Timo Jacob, University of Ulm (Ulm)
Theoretical Modeling of Electrocatalytic Reactions

Marc Koper University of Leiden (Leiden) 
Comparing Platinum and Gold for Electro-oxidation Reactions

Christine Kranz, University of Ulm (Ulm)
Nanoelectrochemistry at the AFM tip

Alexander Kuhn, Université de Bordeaux 1 (Bordeaux)
Rational Design of Nanostructures Using Bipolar Electrochemistry

Hans-Dieter Wiemhöfer, University of Münster (Münster)
Polymer Electrolytes for Batteries - Properties and Recent Trends

Commemorating Lecture

Jürgen Garche, Univerity of Ulm (Ulm)
50 Anniversary of the Division of Applied Electrochmistry of the Gesellschaft Deutscher Chemiker e.V. (GDCh): 
Die Geschichte der der Fachgruppe Angewandte Elektrochemie - was können wir heute noch daraus lernen? (in German)

Program

Parallel oral sessions are planned in addition to the plenary lectures:

A. Fundamentals of electron transfer and electrocatalysis
(interfacial structures and reactivity, multi-scale simulation, high resolution study of processes in the electrochemical double layer)


B. Molecular electrochemistry in new materials, sensors
(e. g. energy, bioelectrochemistry, membranes, reactions in microscopic and nanoscopic domains, unconventiopnal solvents and reaction environments)

C. Electrochemistry in the solid state and of inorganic materials
(corrosion and corrosion control, electrochemical machining, electroplating, photoelectrochemistry)


D. Improvements of industrial processes and products by enhanced mechanistic and microscopic understanding
 (e.g. new energy conversion and storage technologies, energy efficient electrosynthesis)

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