Photoelectron imaging and quantum chemistry study of phenolate, difluorophenolate, and dimethoxyphenolate anions
Photoelectron imaging and quantum chemistry study of phenolate, difluorophenolate, and dimethoxyphenolate anions
Phenolates and their substituted analogues are important molecular motifs in many biological molecules, including the family of fluorescent proteins based on green fluorescent protein. We have used a combination of anion photoelectron velocity-map imaging measurements and quantum chemistry calculations to probe the electronic structure of the phenolate anion and difluoro- and dimethoxy-substituted analogues. We report vertical detachment energies (VDEs) and quantify the photoelectron angular distributions. The VDEs for phenolate (2.26 ± 0.03 eV, 3.22 ± 0.02 eV) are in agreement with high-resolution measurements, whereas the values for the substituted analogues (2.61 ± 0.03 eV for difluorophenolate; ∼2.35 eV for dimethoxyphenolate) are new measurements. We also report adiabatic excitation energies (AEEs) of anion resonances and discuss their contributions to the overall photoelectron angular distributions. The AEE of the lowest lying resonance in phenolate (∼3.36 eV) is consistent with previous measurements, whereas the value for the next resonance (∼3.7 eV) is a new measurement. The AEEs of the resonances in the substituted analogues (∼3.74 eV for difluorophenolate; ∼3.4 and 3.74 eV for dimethoxyphenolate) are new measurements.
2709-2718
Woodhouse, Joanne L.
94d6c235-3e1e-44bc-8379-525862fd382c
Henley, Alice
9006916b-f325-4caf-9e67-bc533f772177
Parkes, Michael A.
a53d8679-bd6a-442e-9370-f7dce3d449fc
Fielding, Helen H.
08a62947-4748-4638-ac7b-e829a42647a2
4 April 2019
Woodhouse, Joanne L.
94d6c235-3e1e-44bc-8379-525862fd382c
Henley, Alice
9006916b-f325-4caf-9e67-bc533f772177
Parkes, Michael A.
a53d8679-bd6a-442e-9370-f7dce3d449fc
Fielding, Helen H.
08a62947-4748-4638-ac7b-e829a42647a2
Woodhouse, Joanne L., Henley, Alice, Parkes, Michael A. and Fielding, Helen H.
(2019)
Photoelectron imaging and quantum chemistry study of phenolate, difluorophenolate, and dimethoxyphenolate anions.
Journal of Physical Chemistry A, 123 (13), .
(doi:10.1021/acs.jpca.8b11121).
Abstract
Phenolates and their substituted analogues are important molecular motifs in many biological molecules, including the family of fluorescent proteins based on green fluorescent protein. We have used a combination of anion photoelectron velocity-map imaging measurements and quantum chemistry calculations to probe the electronic structure of the phenolate anion and difluoro- and dimethoxy-substituted analogues. We report vertical detachment energies (VDEs) and quantify the photoelectron angular distributions. The VDEs for phenolate (2.26 ± 0.03 eV, 3.22 ± 0.02 eV) are in agreement with high-resolution measurements, whereas the values for the substituted analogues (2.61 ± 0.03 eV for difluorophenolate; ∼2.35 eV for dimethoxyphenolate) are new measurements. We also report adiabatic excitation energies (AEEs) of anion resonances and discuss their contributions to the overall photoelectron angular distributions. The AEE of the lowest lying resonance in phenolate (∼3.36 eV) is consistent with previous measurements, whereas the value for the next resonance (∼3.7 eV) is a new measurement. The AEEs of the resonances in the substituted analogues (∼3.74 eV for difluorophenolate; ∼3.4 and 3.74 eV for dimethoxyphenolate) are new measurements.
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e-pub ahead of print date: 8 March 2019
Published date: 4 April 2019
Identifiers
Local EPrints ID: 431933
URI: http://eprints.soton.ac.uk/id/eprint/431933
ISSN: 1089-5639
PURE UUID: 6b2c5867-f02f-49f1-8be2-5af0df6659f2
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Date deposited: 21 Jun 2019 16:30
Last modified: 18 Mar 2024 03:49
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Contributors
Author:
Joanne L. Woodhouse
Author:
Alice Henley
Author:
Michael A. Parkes
Author:
Helen H. Fielding
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