D. Harry Chambers scite author profile

D. Harry Chambers

4Publications

69Citation Statements Received

144Citation Statements Given

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136

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San Jose State University

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Structure−Property Relationships of Stable Free Radicals: Verdazyls with Electron-Rich Aryl Substituents

2009

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Substitution of the 3 position of 6-oxoverdazyl free radicals with electron-rich arylamines, phenols, and aryl ethers elicits changes in the UV-vis spectra and in the pK(a) of the aryl substituents consistent with the verdazyl being electron withdrawing. The pK(a) of substituents is decreased: in 80% methanol phenols 3a and 3b have pK(a) of 10.4 and 10.9, respectively, while the ammonium ion from protonation of 3j has pK(a) = 2.4. On the basis of these measurements, Hammett parameters for the verdazyl have been estimated: sigma(p)(-) = +0.48 and sigma(m) = +0.27. The longest wavelength band in the visible spectrum is red-shifted with increasingly electron-rich aromatic rings and with increasingly polar solvents, consistent with a transition from the highest fully occupied orbital to the radical SOMO. Exceptions occur when additional interactions occur between verdazyl and substituent; hydrogen bonding in the case of 3c and steric interference for 3f. Measurements such as ESR and electrochemistry that are dependent largely on the SOMO are relatively insensitive to changes in substituent.

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Oxidation of Electron Donor-Substituted Verdazyls: Building Blocks for Molecular Switches

et al. 2015

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Species that can undergo changes in electronic configuration as a result of an external stimulus such as pH or solvent polarity can play an important role in sensors, conducting polymers, and molecular switches. One way to achieve such structures is to couple two redox-active fragments, where the redox activity of one of them is strongly dependent upon environment. We report on two new verdazyls, one subsituted with a di-tert-butyl phenol group and the other with a dimethylaminophenyl group, that have the potential for such behavior upon oxidation. Oxidation of both verdazyls with copper(II) triflate in acetonitrile gives diamagnetic verdazylium ions characterized by NMR and UV-vis spectroscopies. Deprotonation of the phenol-verdazylium results in electron transfer and a switch from a singlet state to a paramagnetic triplet diradical identified by electron spin resonance. The dimethylaminoverdazylium 9 has a diamagnetic ground state, in line with predictions from simple empirical methods and supported by density functional theory calculations. These results indicate that verdazyls may complement nitroxides as spin carriers in the design of organic molecular electronics.

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Mechanism of the Low Temperature Chlorination of Isobutylene¹

Reeve¹,

Chambers²,

Prickett³

1952

J. Am. Chem. Soc.

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Mechanism of the Low Temperature Chlorination of Isobutylene

Reeve¹,

Chambers²

1951

J. Am. Chem. Soc.

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D. Harry Chambers

Structure−Property Relationships of Stable Free Radicals: Verdazyls with Electron-Rich Aryl Substituents

Oxidation of Electron Donor-Substituted Verdazyls: Building Blocks for Molecular Switches

Mechanism of the Low Temperature Chlorination of Isobutylene¹

Mechanism of the Low Temperature Chlorination of Isobutylene

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D. Harry Chambers

Structure−Property Relationships of Stable Free Radicals: Verdazyls with Electron-Rich Aryl Substituents

Oxidation of Electron Donor-Substituted Verdazyls: Building Blocks for Molecular Switches

Mechanism of the Low Temperature Chlorination of Isobutylene1

Mechanism of the Low Temperature Chlorination of Isobutylene

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Product

Resources

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Mechanism of the Low Temperature Chlorination of Isobutylene¹