Luke T. Dressel scite author profile

Luke T. Dressel

3Publications

62Citation Statements Received

178Citation Statements Given

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Wayne State University, University of Wisconsin–Eau Claire

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Effect of Conformational Constraints on Gated Electron-Transfer Kinetics. 3. Copper(II/I) Complexes with cis- and trans-Cyclopentanediyl-1,4,8,11-tetrathiacyclotetradecane¹

et al. 2000

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Previous kinetic and electrochemical studies of copper complexes with macrocyclic tetrathiaethers-such as 1,4,8,11-tetrathiacyclotetradecane ([14]aneS4)-have indicated that electron transfer and the accompanying conformational change occur sequentially to give rise to a dual-pathway mechanism. Under appropriate conditions, the conformational change itself may become rate-limiting, a condition known as "gated" electron transfer. We have recently hypothesized that the controlling conformational change involves inversion of two donor atoms, which suggests that "gated" behavior should be affected by appropriate steric constraints. In the current work, two derivatives of [14]aneS4 have been synthesized in which one of the ethylene bridges has been replaced by either cis- or trans-1,2-cyclopentane. The resulting copper systems have been characterized in terms of their Cu(II/I)L potentials, the stabilities of their oxidized and reduced complexes, and their crystal structures. The electron self-exchange rate constants have been determined both by NMR line-broadening and by kinetic measurements of their rates of reduction and oxidation with six or seven counter reagents. All studies have been carried out at 25 degrees C, mu = 0.10 M (NaClO4 and/or Cu(ClO4)2), in aqueous solution. Both Cu(II/I) systems show evidence of a dual-pathway mechanism, and the electron self-exchange rate constants representative of both mechanistic pathways have been determined. The first-order rate constant for gated behavior has also been resolved for the Cu(I)(trans-cyclopentane-[14]aneS4) complex, but only a limiting value can be established for the corresponding cis-cyclopentane system. The rate constants for both systems investigated in this work are compared to values previously determined for the Cu(II/I) systems with the parent [14]aneS4 macrocycle and its derivatives involving phenylene and cis- or trans-cyclohexane substituents. The results are discussed in terms of the influence of the fused rings on the probable conformational changes accompanying the electron-transfer process.

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Effect of Constrained Donor Atom Orientations on the Stabilities, Complexation Kinetics, Redox Potentials, and Structures of Macrocyclic Polythiaether Complexes. Copper(II) Complexes with Cyclopentanediyl Derivatives of [14]aneS₄ in 80% Methanol

et al. 2005

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The two ethylene bridges in the macrocyclic tetrathiaether 1,4,8,11-tetrathiacyclotetradecane ([14]aneS(4)) have been systematically replaced by cis- or trans-1,2-cyclopentane to generate a series of new ligands that exhibit differing preferences for the orientation of the sulfur donor atoms while maintaining constant inductive effects. The resulting five dicyclopentanediyl derivatives, along with two previously synthesized monocyclopentanediyl analogues, have been complexed with Cu(II), and their stability constants, formation and dissociation rate constants, and redox potentials have been determined in 80% methanol/20% water (by weight). The crystal structures of the Cu(II) complexes with the five dicyclopentanediyl-[14]aneS(4) diastereomers as well as the structures for a representative Cu(I) complex and one of the free ligands have also been determined. The properties of these complexes are compared to previous data obtained for the corresponding cyclohexanediyl derivatives in an attempt to shed additional light on the influence of sterically constraining substituents upon the properties of macrocyclic ligand complexes.

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CCDC 297836: Experimental Crystal Structure Determination

Kakos¹,

Dressel²,

Bushendorf³

et al. 2006

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Luke T. Dressel

Effect of Conformational Constraints on Gated Electron-Transfer Kinetics. 3. Copper(II/I) Complexes with cis- and trans-Cyclopentanediyl-1,4,8,11-tetrathiacyclotetradecane¹

Effect of Constrained Donor Atom Orientations on the Stabilities, Complexation Kinetics, Redox Potentials, and Structures of Macrocyclic Polythiaether Complexes. Copper(II) Complexes with Cyclopentanediyl Derivatives of [14]aneS₄ in 80% Methanol

CCDC 297836: Experimental Crystal Structure Determination

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Luke T. Dressel

Effect of Conformational Constraints on Gated Electron-Transfer Kinetics. 3. Copper(II/I) Complexes with cis- and trans-Cyclopentanediyl-1,4,8,11-tetrathiacyclotetradecane1

Effect of Constrained Donor Atom Orientations on the Stabilities, Complexation Kinetics, Redox Potentials, and Structures of Macrocyclic Polythiaether Complexes. Copper(II) Complexes with Cyclopentanediyl Derivatives of [14]aneS4 in 80% Methanol

CCDC 297836: Experimental Crystal Structure Determination

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Effect of Conformational Constraints on Gated Electron-Transfer Kinetics. 3. Copper(II/I) Complexes with cis- and trans-Cyclopentanediyl-1,4,8,11-tetrathiacyclotetradecane¹

Effect of Constrained Donor Atom Orientations on the Stabilities, Complexation Kinetics, Redox Potentials, and Structures of Macrocyclic Polythiaether Complexes. Copper(II) Complexes with Cyclopentanediyl Derivatives of [14]aneS₄ in 80% Methanol