Effects of electrolytes on redox potentials through ion pairing

Bird, Matthew J.; Iyoda, Tomokazu; Bonura, Nicholas; Bakalis, Jin; Ledbetter, Abram J.; Miller, John R.

doi:10.1016/j.jelechem.2017.09.030

Cited by 22 publications

(28 citation statements)

References 53 publications

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“…Voltammograms of the standard are recorded before and after each set of measurements. From the dependence of E (1/2) on the electrolyte concentration, the potential for each neat solvent is estimated from extrapolation to zero electrolyte concentration. − This method for extrapolation of E (1/2) to zero concentration, however, does not account for potential aggregation with dissociation constants lower than the mM range …”

Section: Methodsmentioning

confidence: 99%

Bidirectional Solvatofluorochromism of a Pyrrolo[3,2-b]pyrrole–Diketopyrrolopyrrole Hybrid

et al. 2017

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Hybridization of electron donors and acceptors provides routes to long-wavelength absorbing and fluorescing dyes. Varying the coupling of low-lying charge-transfer (CT) states with the ground and different locally excited states profoundly affects the photophysics of such donor–acceptor conjugates. Herein, we hybridize an electron-deficient diketopyrrolopyrrole (DPP) moiety with an electron-rich pyrrolopyrrole (PP) that is symmetrically N-arylated with 4-nitrophenyl substituents. The lowest Franck–Condon state is located on the DPP ring structure and dominates the photophysics of the hybrid. Similar to the DPP moiety, the hybrid exhibits optical absorption that is invariant to the solvent media. The PP donor considerably modulates its fluorescence by undergoing electron transfer to the locally excited DPP to form a CT state. For nonpolar media, an increase in solvent polarity causes a bathochromic shift of the fluorescence reaching the longest wavelengths for chloroform and DCM. A further increase in the medium polarity moves the fluorescence maximum hypsochromically back to where it is for alkane solvents. This bidirectional solvatofluorochromism accompanies a polarity-induced increase in the nonradiative decay rates leading to a decrease in the emission quantum yield. The solvent dependence of the energy level of the CT state is responsible for the observed polarity-induced fluorescence behavior of the hybrid. This emission behavior, along with the solvent invariance of the absorption, results in multimodal sensitivity to the solvation environment.

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Section: Methodsmentioning

confidence: 99%

Bidirectional Solvatofluorochromism of a Pyrrolo[3,2-b]pyrrole–Diketopyrrolopyrrole Hybrid

et al. 2017

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“…Recent pulse radiolysis studies have shown that even “inert” electrolytes can stabilize redox-active ions by hundreds of millivolts. 23 − 25 These examples highlight the need to develop a stronger understanding of how noncovalent interactions affect the kinetics and thermodynamics of electron transfer, and more broadly, any reaction where ion stabilization impacts reactivity. …”

Section: Introductionmentioning

confidence: 99%

Resolving Halide Ion Stabilization through Kinetically Competitive Electron Transfers

Deetz

Meyer

2022

JACS Au

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Stabilization of ions and radicals often determines reaction kinetics and thermodynamics, but experimental determination of the stabilization magnitude remains difficult, especially when the species is short-lived. Herein, a competitive kinetic approach to quantify the stabilization of a halide ion toward oxidation imparted by specific stabilizing groups relative to a solvated halide ion is reported. This approach provides the increase in the formal reduction potential, Δ E °′(Χ •/– ), where X = Br and I, that results from the noncovalent interaction with stabilizing groups. The [Ir(dF-(CF 3 )-ppy) 2 (tmam)] 3+ photocatalyst features a dicationic ligand tmam [4,4′-bis[(trimethylamino)methyl]-2,2′-bipyridine] 2+ that is shown by 1 H NMR spectroscopy to associate a single halide ion, K eq = 7 × 10 4 M –1 (Br – ) and K eq = 1 × 10 4 M –1 (I – ). Light excitation of the photocatalyst in halide-containing acetonitrile solutions results in competitive quenching by the stabilized halide and the more easily oxidized diffusing halide ion. Marcus theory is used to relate the rate constants to the electron-transfer driving forces for oxidation of the stabilized and unstabilized halide, the difference of which provides the increase in reduction potentials of Δ E °′(Br •/– ) = 150 ± 24 meV and Δ E °′(I •/– ) = 67 ± 13 meV. The data reveal that K eq is a poor indicator of these reduction potential shifts. Furthermore, the historic and widely used assumption that Coulombic interactions alone are responsible for stabilization must be reconsidered, at least for polarizable halogens.

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“…With surface confined voltammetry, widespread comparisons of parameterisation outcomes with various electron transfer models, as well as Langmuir, Temkin of Frumkin isotherms, could be invaluable. Another issue usually overlooked in modelling even a simple electron transfer step is the change in ion pairing [27,28] that almost inevitably accompanies an electrode process. Ion pairing is particularly favoured under voltammetric conditions because the supporting electrolyte concentration is commonly at least 0.1 M and hence in large excess over the mM or lower concentration of the species assumed to undergo a simple oxidation or reduction reaction in the modelling.…”

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confidence: 99%

A perceived paucity of quantitative studies in the modern era of voltammetry: prospects for parameterisation of complex reactions in Bayesian and machine learning frameworks

Bond

2020

J Solid State Electrochem

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Effects of electrolytes on redox potentials through ion pairing

Cited by 22 publications

References 53 publications

Bidirectional Solvatofluorochromism of a Pyrrolo[3,2-b]pyrrole–Diketopyrrolopyrrole Hybrid

Bidirectional Solvatofluorochromism of a Pyrrolo[3,2-b]pyrrole–Diketopyrrolopyrrole Hybrid

Resolving Halide Ion Stabilization through Kinetically Competitive Electron Transfers

A perceived paucity of quantitative studies in the modern era of voltammetry: prospects for parameterisation of complex reactions in Bayesian and machine learning frameworks

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