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Divinylphenylene- and Ethynylvinylphenylene-Bridged Mono-, Di-, and Triruthenium Complexes for Covalent Binding to Gold Electrodes

Divinylphenylene- and Ethynylvinylphenylene-Bridged Mono-, Di-, and Triruthenium Complexes for Covalent Binding to Gold Electrodes

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WUTTKE, Evelyn, Yves-Marie HERVAULT, Walther POLIT, Michael LINSEIS, Philipp ERLER, Stéphane RIGAUT, Rainer F. WINTER, 2014. Divinylphenylene- and Ethynylvinylphenylene-Bridged Mono-, Di-, and Triruthenium Complexes for Covalent Binding to Gold Electrodes. In: Organometallics. 33(18), pp. 4672-4686. ISSN 0276-7333. eISSN 1520-6041

@article{Wuttke2014Divin-29167, title={Divinylphenylene- and Ethynylvinylphenylene-Bridged Mono-, Di-, and Triruthenium Complexes for Covalent Binding to Gold Electrodes}, year={2014}, doi={10.1021/om400642j}, number={18}, volume={33}, issn={0276-7333}, journal={Organometallics}, pages={4672--4686}, author={Wuttke, Evelyn and Hervault, Yves-Marie and Polit, Walther and Linseis, Michael and Erler, Philipp and Rigaut, Stéphane and Winter, Rainer F.} }

Linseis, Michael Winter, Rainer F. Winter, Rainer F. Linseis, Michael Divinylphenylene- and Ethynylvinylphenylene-Bridged Mono-, Di-, and Triruthenium Complexes for Covalent Binding to Gold Electrodes 2014 Wuttke, Evelyn Hervault, Yves-Marie eng Polit, Walther In this work, we describe the preparation and the properties of the novel bis(vinylphenylene)-bridged diruthenium complexes {Ru(CO)(η<sup>2</sup>-O<sub>2</sub>C-p-C<sub>6</sub>H<sub>4</sub>SAc)(P<sup>i</sup>Pr<sub>3</sub>)<sub>2</sub>}<sub>2</sub>(μ-CH═CH-C<sub>6</sub>H<sub>4</sub>-CH═CH-1,3 and -1,4) (6 and 7), the bis(ethynylphenylene)-bridged complex trans-[AcS-p-C<sub>6</sub>H<sub>4</sub>-C≡C-Ru(dppe)<sub>2</sub>-C≡C-p-C<sub>6</sub>H<sub>4</sub>-C≡C-Ru(dppe)<sub>2</sub>-C≡C-p-C<sub>6</sub>H<sub>4</sub>-SAc] (11), the bis(1-ethynyl-4-vinylphenylene)-bridged triruthenium complex trans-[{Ru(dppe)<sub>2</sub>}{−C≡C-p-C<sub>6</sub>H<sub>4</sub>-CH═CH-Ru(CO)(η<sup>2</sup>-O<sub>2</sub>C-p-C<sub>6</sub>H<sub>4</sub>SAc)(P<sup>i</sup>Pr<sub>3</sub>)<sub>2</sub>}<sub>2</sub>] (8), and the monometallic congeners Ru(CH═CH-p-C<sub>6</sub>H<sub>4</sub>SAc)(CO)(η<sup>2</sup>-O<sub>2</sub>C-p-C<sub>6</sub>H<sub>4</sub>SAc)(P<sup>i</sup>Pr<sub>3</sub>)<sub>2</sub> (4) and trans-[Ru(dppe)<sub>2</sub>(−C≡C-p-C<sub>6</sub>H<sub>4</sub>-SAc)<sub>2</sub>] (10). These mono-, bi-, and trimetallic complexes feature terminal acetyl-protected thiol functions for covalent binding to gold surfaces or for bridging the gaps of gold nanoelectrodes. All complexes display low oxidation potentials, and IR studies of the neutral complex 8 and of its various oxidized forms 8<sup>n+</sup> indicate the high vinyl/ethynyl bridging ligand contribution to the oxidation processes and complete charge delocalization in all available oxidation states (n = 1–3). Strong delocalization of the relevant occupied frontier MOs over the entire π-conjugated {Ru}–bridge–{Ru′}–bridge–{Ru} backbone is also supported by DFT calculations on the parent complexes V8 and V8<sub>OMe</sub>. The benzoate ligand bearing the functional group for gold binding is outside the conjugation path and insulates the wirelike central portion of these molecules from their periphery. Upon insertion into molecular junctions, these molecules are expected to enhance sequential tunneling and to facilitate Coulomb blockade behavior. They will thus contribute to our understanding of structure–property relationships for metal-containing molecular wires. Polit, Walther Hervault, Yves-Marie 2014-10-22T13:41:15Z 2014-10-22T13:41:15Z Rigaut, Stéphane Rigaut, Stéphane Erler, Philipp Erler, Philipp Wuttke, Evelyn

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