The ionization potentials of electrolyte solutions provide important information about the electronic structure of liquids and solute-solvent interactions. We analyzed the positions of solute and solvent bands of aqueous hydroxide and the influence of the solvent environment on the ionization potential of hydroxide ions. We used the concept of a computational hydrogen electrode to define absolute band positions with respect to vacuum. We found that many-body perturbation theory in the G0 W0 approximation substantially improves the relative and absolute positions of the band edges of solute and solvent with respect to those obtained within Density Functional Theory, using semi-local functionals, yielding results in satisfactory agreement with recent experiments.
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21 July 2014
Research Article|
July 15 2014
The ionization potential of aqueous hydroxide computed using many-body perturbation theory
Daniel Opalka;
Daniel Opalka
a)
1Department of Chemistry,
University of Cambridge
, Cambridge CB2 1EW, United Kingdom
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Tuan Anh Pham;
Tuan Anh Pham
2Department of Chemistry,
University of California
, Davis, California 95616, USA
3
Lawrence Livermore National Laboratory
, Livermore, California 94551, USA
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Michiel Sprik;
Michiel Sprik
1Department of Chemistry,
University of Cambridge
, Cambridge CB2 1EW, United Kingdom
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Giulia Galli
Giulia Galli
4The Institute for Molecular Engineering,
University of Chicago
, Chicago, Illinois 60637, USA
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J. Chem. Phys. 141, 034501 (2014)
Article history
Received:
April 15 2014
Accepted:
June 25 2014
Citation
Daniel Opalka, Tuan Anh Pham, Michiel Sprik, Giulia Galli; The ionization potential of aqueous hydroxide computed using many-body perturbation theory. J. Chem. Phys. 21 July 2014; 141 (3): 034501. https://doi.org/10.1063/1.4887259
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