Electrochemical Oxidation of Ferrocene: A Strong Dependence on the Concentration of the Supporting Electrolyte for Nonpolar Solvents

Bao, Duoduo; Millare, Brent; Xia, Wei; Steyer, Benjamin; Gerasimenko, Alexander A.; Ferreira, Amy S.; Contreras, A.; Vullev, Valentine I.

doi:10.1021/jp809105f

Cited by 141 publications

(231 citation statements)

References 42 publications

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“…f The values of ΔG(0) for the photoinduced charge separation, CS, and for the back charge transfer leading to charge recombination, CR, were estimated using the Rehm−Weller equation. 41,43 Figure 1. Absorption spectra of the donor−acceptor dyads, and of their components and transients.…”

Section: Journal Of the American Chemical Societymentioning

confidence: 99%

Dipole-Mediated Rectification of Intramolecular Photoinduced Charge Separation and Charge Recombination

et al. 2014

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Controlling charge transfer at a molecular scale is critical for efficient light harvesting, energy conversion, and nanoelectronics. Dipole-polarization electrets, the electrostatic analogue of magnets, provide a means for "steering" electron transduction via the local electric fields generated by their permanent electric dipoles. Here, we describe the first demonstration of the utility of anthranilamides, moieties with ordered dipoles, for controlling intramolecular charge transfer. Donor− acceptor dyads, each containing a single anthranilamide moiety, distinctly rectify both the forward photoinduced electron transfer and the subsequent charge recombination. Changes in the observed charge-transfer kinetics as a function of media polarity were consistent with the anticipated effects of the anthranilamide molecular dipoles on the rectification. The regioselectivity of electron transfer and the molecular dynamics of the dyads further modulated the observed kinetics, particularly for charge recombination. These findings reveal the underlying complexity of dipole-induced effects on electron transfer and demonstrate unexplored paradigms for molecular rectifiers.

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Section: Journal Of the American Chemical Societymentioning

confidence: 99%

Dipole-Mediated Rectification of Intramolecular Photoinduced Charge Separation and Charge Recombination

et al. 2014

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“…To elucidate the media effects on the electronic properties, we focus on the dependence of the Aa electrochemical potentials on the solvent polarity [64][65][66][67][68] polarity that have electrochemical windows extending over the expected potentials needed for the oxidation of the Aa residues: chloroform (CHCl 3 ), dichloromethane (DCM), benzonitrile (PhCN), acetonitrile (MeCN), and propylene carbonate (PC).…”

Section: Reduction Potentialsmentioning

confidence: 99%

“…While electrochemical measurements require media with high electrolyte concentrations, it is the information for E (0) in neat solvents that is directly relevant to spectroscopy and computational data [65]. From the dependence of the measured…”

Section: Reduction Potentialsmentioning

confidence: 99%

Building blocks for bioinspired electrets: molecular-level approach to materials for energy and electronics

Larsen

Espinoza

Hartman

et al. 2015

Pure and Applied Chemistry

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In biology, an immense diversity of protein structural and functional motifs originates from only 20 common proteinogenic native amino acids arranged in various sequences. Is it possible to attain the same diversity in electronic materials based on organic macromolecules composed of non-native residues with different characteristics? This publication describes the design, preparation and characterization of non-native aromatic β-amino acid residues, i.e. derivatives of anthranilic acid, for polyamides that can efficiently mediate hole transfer. Chemical derivatization with three types of substituents at two positions of the aromatic ring allows for adjusting the energy levels of the frontier orbitals of the anthranilamide residues over a range of about one electronvolt. Most importantly, the anthranilamide residues possess permanent electric dipoles, adding to the electronic properties of the bioinspired conjugates they compose, making them molecular electrets.

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“…The data analysis was conducted using IgorPro v. 6 installed on MacOS and Windows workstations (Thomas et al 2010c;Jones and Vullev 2002;Vullev and Jones 2002;Wan et al 2008;Bao et al 2009;Jones et al 2007). …”

Section: Examination Of Qa Semi-quantitativelymentioning

confidence: 99%

Dependence of the quality of adhesion between poly(dimethylsiloxane) and glass surfaces on the composition of the oxidizing plasma

Chau

Millare

Lin

et al. 2010

Microfluid Nanofluid

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Controlled surface oxidation of polydimethylsiloxane (PDMS) is essential for permanent adhesion between device components composed of this elastomer. The permanent adhesion between such microdevice components results from covalent crosslinking across the interfaces between PDMS and other silica-based materials, such as glass, quartz, and PDMS. Optimal duration and conditions of oxidation, attained via treatments with oxygen-containing plasma, are crucial for microfabrication procedures with quantitative yields. While insufficient PDMS oxidation does not provide high enough surface density of siloxyl groups for cross-interface linking, overoxidation of PDMS yields rough silica surface layers that prevent the adhesion between flat substrates. Ideally, for a set of plasma conditions, the range of treatment durations producing permanent adhesion should be as broad as possible: i.e., the surface oxidation of PDMS sufficient for irreversible binding has to complete significantly before the effects of overoxidation become apparent. Such a requirement assures that relatively small fluctuations in the treatment conditions will not result in over-or under-oxidation and, hence, will not compromise the yields of the fabrication procedures. We examined the dependence of the quality of adhesion (QA) between plasma-treated PDMS and glass substrates on the composition of the oxygen-containing plasma and on the radio frequency (RF) of the plasma generator. We observed that plasma generated at megahertz RF provided superior conditions than kilohertz RF. Concurrently, an increase in the oxygen content of binary gas mixtures, used for the plasma, broadened the treatment durations that afford superior QA.

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Electrochemical Oxidation of Ferrocene: A Strong Dependence on the Concentration of the Supporting Electrolyte for Nonpolar Solvents

Cited by 141 publications

References 42 publications

Dipole-Mediated Rectification of Intramolecular Photoinduced Charge Separation and Charge Recombination

Dipole-Mediated Rectification of Intramolecular Photoinduced Charge Separation and Charge Recombination

Building blocks for bioinspired electrets: molecular-level approach to materials for energy and electronics

Dependence of the quality of adhesion between poly(dimethylsiloxane) and glass surfaces on the composition of the oxidizing plasma

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