Synthesis and Electrochemistry of Ru-arene Complexes

According to a hypothesis of Boekelheide, Ru-cyclophane polymers are expected to be accessible by electrochemical polymerization and might possess intrinsic electrical conductivity and have potential interest as sensoric materials. We synthesize and characterize by electrochemical methods precursors for such polymers.

Organometallic complexes with one, two, or three Ru atoms, which are connected by cyclophane units, are investigated with respect to their electron-transfer properties. Polymers are precipitated on an electrode, and the resulting thin films are characterized.

Coworkers in this project:

Stefan Dümmling, Bernhard Gollas, Bernd Krauß, Susanne Schneider and Ioannis Zagos

We acknowledge funding of this project by the Deutsche Forschungsgemeinschaft, Bonn - Bad Godesberg.

Publications from this project:

B. Gollas, B. Speiser, I. Zagos und C. Maichle-Mössmer, J. Organomet. Chem., 602, 75 - 90 (2000); Electrochemistry of Ruthenium Metallocenes. Part 3. Synthesis, Spectroscopic Characterization, and Electrochemical Redox Reactions of Ruthenium Arene Complexes with Methacrylic Acid and Methacrylate Ester Substituted Cyclophane Ligands.

B. Speiser und S. Dümmling, in J. Russow, G. Sandstede und R. Staab (Hrsg.), GDCH-Monographien, Band 14, 33 - 39 (1999); Zweielektronentransfer-Redoxsysteme. Teil 1. Cyclovoltammetrische Charakterisierung von Zweielektronentransfers an organischen und metallorganischen Molekülen. (gleichzeitig: Electrochemie von Rutheniummetallocenen, Teil 2)

L.K. Bieniasz, S. Dümmling, B. Speiser und M. Würde, J. Electroanal. Chem., 447, 173 - 186 (1998); Use of Sensitivity Analysis Methods in the Modelling of Electrochemical Transients. Part 2. Model Expansion and Model Reduction.

B. Gollas, I. Hesse, R. Lotz, H. Pasch, B. Speiser und I. Zagos, Liebigs. Ann./Recueil, 1997, 2255 - 2264; Electrochemical Oxidation of 4-Ethenyl-[2₂]paracyclophane: Cyclic Voltammetry, Electrosynthesis of Polymers, Analysis by Liquid Chromatography and Mass Spectrometry.

B. Gollas, B. Speiser, J. Sieglen, J. Strähle und C. Maichle-Mössmer, Z. Krist., 212, 271 - 272 (1997); Crystal Structure of E-4-(2^′-Ethoxycarbonyl-2^′-methyl)-ethenyl-[2₂]paracyclophane, C₂₂H₂₄O₂.

B. Gollas und B. Speiser, in F. Beck (Hrsg.), Elektrochemie der Elektronenleiter. Metalle - Oxide - Polymere, Beiträge der Jahrestagung der GDCh-Fachgruppe Angewandte Elektrochemie, GDCh-Monographie, Band 3, Gesellschaft Deutscher Chemiker, Frankfurt, 1996, S. 580 (ISBN: 3-924763-56-9); Elektrochemische Redoxreaktionen von Rutheniumkomplexen aromatischer Liganden: Redoxpolymerfilme aus Vinylcyclophan-Ruthenium-Metallocenen.

B. Gollas, B. Speiser, J. Sieglen und J. Strähle, Organometallics, 15, 260 - 271 (1996); Electrochemistry of Ruthenium Metallocenes. 1. Synthesis, NMR, and Anodic Electrochemical Behavior of Vinyl-Substituted Ruthenium Cyclophane Complexes.