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1. Nonadditive voltammetric currents from two redox-active substances and electroanalytical implications

Author

Leventis, Nicholas, Oh, Woon Su, Gao, Xuerong, and Rawashdeh, Abdel-Monem M.

Subjects
Voltammetry -- Usage, Electrodes -- Composition, Electrochemistry -- Research, Oxidation-reduction reaction -- Analysis, Iron compounds, Chemical compounds, Chemistry, Analytic -- Research, Chemistry
Abstract

At the potential range where both decamethylferrocene (dMeFc) and ferrocene (Fc) are oxidized with rates controlled by linear diffusion, electrogenerated [Fc.sup.*+] radicals diffusing outward from the electrode react quantitatively ([K.sub.23[degrees]C] = 5.8 x [10.sup.8]) with dMeFc diffusing toward the electrode and produce Fc and dMe[Fc.sup.*+]. That reaction replaces dMeFc with Fc, whose diffusion coefficient is higher than that of dMeFc, and the total mass-transfer limited current from the mixture is increased by ~10%. Analogous observations are made when mass transfer is controlled by convective diffusion as in RDE voltammetry. Similar results have been obtained with another, and for all practical purposes randomly selected pair of redox-active substances, [[Co[(bipy).sub.3]].sup.2+] and N-methylphenothiazine (MePTZ); reaction of MePT[Z.sup.*+] with [Co[(bipy).sup.3]].sup.2+] replaces the latter with MePTZ, which diffuses faster, and the total current increases by ~20%. The experimental voltammograms have been simulated numerically and the role of (a) the rate constant of the homogeneous reaction, (b) the relative concentrations, and (c) the diffusion coefficients of all species involved have been studied in detail. Importantly, it was also identified that within any given redox system the dependence of the mass-transfer limited current on the bulk concentrations of the redox-active species is expected to be nonlinear. These findings are discussed in terms of their electroanalytical implications.

Published
2003

4. Redox-Active Star Molecules Incorporating the 4-Benzoylpyridinium Cation - Implications for the Charge Transfer Along Branches vs. Across the Perimeter in Dendrimer

Author

Leventis, Nicholas, Yang, Jinua, Fabrizio,Even F, Rawashdeh, Abdel-Monem M, Oh, Woon Su, and Sotiriou-Leventis, Chariklia

Subjects
Inorganic, Organic And Physical Chemistry
Abstract

Dendrimers are self-repeating globular branched star molecules, whose fractal structure continues to fascinate, challenge, and inspire. Functional dendrimers may incorporate redox centers, and potential applications include antennae molecules for light harvesting, sensors, mediators, and artificial biomolecules. We report the synthesis and redox properties of four star systems incorporating the 4-benzoyl-N-alkylpyridinium cation; the redox potential varies along the branches but remains constant at fixed radii. Bulk electrolysis shows that at a semi-infinite time scale all redox centers are electrochemically accessible. However, voltammetric analysis (cyclic voltammetry and differential pulse voltammetry) shows that on1y two of the three redox-active centers in the perimeter are electrochemically accessible during potential sweeps as slow as 20 mV/s and as fast as 10 V/s. On the contrary, both redox centers along branches are accessible electrochemically within the same time frame. These results are explained in terms of slow through-space charge transfer and the globular 3-D folding of the molecules and are discussed in terms of their implications on the design of efficient redox functional dendrimers.

Published
2004
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5. Non-Additive Voltametric Currents From a Mixture of Two, Three and Four Redox-Active Compounds and Electroanalytical Implications

Author

Dass, Amala, Oh, Woon Su, Gao, Xue-Rong, Rawashdeh, Abdel M, and Leventis, Nicholas

Subjects
Inorganic, Organic And Physical Chemistry
Abstract

We have published recently the effect of dissimilar diffusion coefficients on the size of the voltammetric waves from a mixture of two redox-active compounds. Similarly, at the potential range where three redox-active species, decamethylferrocene (dMeFc), ferrocene (Fc) and N-methylphenothiazine (MePTZ), are oxidized simultaneously with rates controlled by linear diffusion, electrogenerated radicals diffusing outwards from the electrode react with the original species diffusing towards the electrode from the bulk; thus, Fc(+) reacts with dMeFc producing Fc and dMeFc(+), while MePTZ(+) reacts both with dMeFc producing MePTZ and dMeFc(+), and with Fc producing MePTZ and Fc(+). These reactions replace dMeFc with Fc at the second plateau, and both dMeFc and Fc with MePTZ at the third plateau. Since the diffusion coefficients of the three species are not equal, the mass-transfer limited currents of the second and the third oxidation wave plateaus change by approx. 10%. Numerical simulations of the experimental voltamograms support this mechanism. Similar results were also obtained for a mixture of four redoxactive compounds. The implications of this non-additive nature of currents on: (a) the use of internal voltammetric standards for quantitative analysis of a mixture of redox-active compounds; and, (b) the half wave potentials (E1/2) of the 2nd, 3rd and 4th waves for qualitative analysis, will be discussed.

Published
2004

6. Coupling of 3,8-Dibromo-1,10-Phenanthroline With 3,5-Diethynylheptyloxybenzene: A Suzuki/Miyaura Versus a Sonogashira Perspective

Author

Yang, Jinhua, Oh, Woon Su, Elder, Ian A, Leventis, Nicholas, and Sotiriou-Leventis, Chariklia

Subjects
Chemistry And Materials (General)
Abstract

We report a new application of the Suzuki-Miyaura reaction whereas two bifunctional reactants, 3,8-dibromo-1,10-phenanthroline and 3,5-diethynylheptyloxylbenzene (9), yield 3,8-bis (3-ethynyl-5-heptyloxyphenylethynyl)-1,10-phenanthroline (2) efficiently (74% yield) without polymerization. This was achieved by reacting a stoichiometric amount of 9 and (Me3Si)2NLi to obtain quantitatively the monoacetylide anion of 9 (10). The latter was activated with B-methoxy-9-BBN and reacted in analogy to the alkynyl copper complex of a Sonogashira route. However, in the Sonogashira reaction, the alkynyl copper complex is present in small equilibrium concentrations and polymerization takes place even when reagents are mixed slowly. Actually the Sonogashira route gave no desired product 2, as the latter polymerizes easily via homo-coupling in the presence of air and Cu(I). Sonogashira coupling involves the palladium(0) catalyzed reaction of terminal alkynes.

Published
2003

7. In General, the Total Voltammetric Current from a Mixture of Redox-Active Substances will Not be the Sum of the Currents that Each Substance would Produce Independently at the Same Concentration as in the Mixture

Author

Leventis, Nicholas, Oh, Woon Su, Gao, Xue-Rong, and Rawashdeh, Abdel Monem M

Subjects
Inorganic, Organic And Physical Chemistry
Abstract

At the potential range where both decamethylferrocene (dMeFc) and ferrocene (Fc) are oxidized with rates controlled by linear diffusion, electrogenerated Fc(+) radicals diffusing outwards from the electrode react quantitatively (K23 C=5.8 x 10(exp 8) with dMeFc diffusing towards the electrode and produce Fc and dMeFc. That reaction replaces dMeFc with Fc, whose diffusion coefficient is higher than that of dMeFc(+), and the total mass-transfer limited current from the mixture is increased by approximately 10%. Analogous observations are made when mass-transfer is controlled by convective-diffusion as in RDE voltammetry. Similar results have been obtained with another, and for all practical purposes randomly selected pair of redox-active substances, [Co(bipy)3](2+) and N - methylphenothiazine (MePTZ); reaction of MePTZ(+) with [Co(bipy)3](2+) replaces the latter with MePTZ, which diffuses faster and the current increases by approximately 20%. The experimental voltammograms have been simulated numerically and the role of (a) the rate constant of the homogeneous reaction; (b) the relative concentrations; and, (c) the diffusion coefficients of all species involved have been studied in detail. Importantly, it was also identified that within any given redox system the dependence of the mass-transfer limited current on the bulk concentrations of the redox-active species is expected to be non-linear. These findings are discussed in terms of their electroanalytical implications.

Published
2003

8. Redox-Active Star Molecules Incorporating the 4-Benzolypyridinium Cation: Implications for the Charge Transfer Efficiency Along Branches versus Across the Perimeter in Dendrimers

Author

Yang, Jin-Hua, Rawashdeh, Abdel Monem M, Oh, Woon Su, Sotiriou-Leventis, Chariklia, and Leventis, Nicholas

Subjects
Inorganic, Organic And Physical Chemistry
Abstract

We report the redox properties of four star systems incorporating the 4-benzoyl-N-alkylpyridinium cation; the redox potential varies along the branches, but remains constant at fixed radii. Voltammetric analysis (cyclic voltammetry and differential pulse voltammetry) shows that only two of the three redox-active centers in the perimeter are electrochemically accessible during potential sweeps as slow as 20 mV/s and as fast as 10 V/s. On the contrary, both redox centers of a branch are accessible electrochemically within the same time frame. These results are discussed in terms of slow through-space charge transfer and the globular 3-D folding of the molecules.

Published
2003

9. Redox-active star molecules incorporating the 4-benzoylpyridinium cation: implications for the charge transfer efficiency along branches vs across the perimeter in dendrimers

Author

Leventis, Nicholas, Yang, Jinhua, Fabrizio, Eve F., Rawashdeh, Abdel-Monem M., and Oh, Woon Su; Sotiriou-Leventis, Chariklia

Subjects
Dendrimers -- Research, Charge transfer -- Research, Electrochemistry, Chemistry
Abstract

The e-transfer of the molecules across the perimeter vs. the branches of dendrimeter through star system molecular design is investigated. The flexible branches not only facilitate e-transfer along the perimeter but also may fold rendering internal redox centers.

Published
2004

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