Calculation of core-level electron spectra of ionic liquids

Meeri Lembinen; Ergo Nõmmiste; Heigo Ers; Borja Docampo-Álvarez; Jaanus Kruusma; Enn Lust; Vladislav B. Ivaništšev

doi:10.1002/qua.26247

Calculation of core-level electron spectra of ionic liquids

Meeri Lembinen
, Ergo Nõmmiste
, Heigo Ers
, Borja Docampo-Álvarez
, Jaanus Kruusma
, Enn Lust
, Vladislav B. Ivaništšev^*

^*Corresponding author for this work

University of Tartu
University of Santiago de Compostela

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

On the example of 40 ion pairs (5 cations times 8 anions), this study demonstrates how the core-level binding energy values can be calculated and used to plot theoretical spectra at low computational cost using density functional theory methods. Three approaches for obtaining the binding energy values are based on delta Kohn–Sham (ΔKS) calculations, 1s KS orbital energies, and atomic charges. The ΔKS results show reasonable agreement with the available experimental X-ray photoelectron data. The 1s KS orbital energies correlate well with the ΔKS results. Atomic charge correlation with ΔKS is improved by accounting for the charges of neighboring atoms. Assignment of binding energies to atoms and the applicability of the mentioned methods to model systems of ionic liquids are discussed.

Original language	English
Article number	e26247
Journal	International Journal of Quantum Chemistry
Volume	120
Issue number	14
DOIs	https://doi.org/10.1002/qua.26247
Publication status	Published - 15 Jul 2020
Externally published	Yes

Keywords

Green function
X-ray photoelectron spectra
core-level binding energy
delta Kohn–Sham
ionic liquid

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10.1002/qua.26247

Cite this

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title = "Calculation of core-level electron spectra of ionic liquids",

abstract = "On the example of 40 ion pairs (5 cations times 8 anions), this study demonstrates how the core-level binding energy values can be calculated and used to plot theoretical spectra at low computational cost using density functional theory methods. Three approaches for obtaining the binding energy values are based on delta Kohn–Sham (ΔKS) calculations, 1s KS orbital energies, and atomic charges. The ΔKS results show reasonable agreement with the available experimental X-ray photoelectron data. The 1s KS orbital energies correlate well with the ΔKS results. Atomic charge correlation with ΔKS is improved by accounting for the charges of neighboring atoms. Assignment of binding energies to atoms and the applicability of the mentioned methods to model systems of ionic liquids are discussed.",

keywords = "Green function, X-ray photoelectron spectra, core-level binding energy, delta Kohn–Sham, ionic liquid",

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doi = "10.1002/qua.26247",

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TY - JOUR

T1 - Calculation of core-level electron spectra of ionic liquids

AU - Lembinen, Meeri

AU - Nõmmiste, Ergo

AU - Ers, Heigo

AU - Docampo-Álvarez, Borja

AU - Kruusma, Jaanus

AU - Lust, Enn

AU - Ivaništšev, Vladislav B.

PY - 2020/7/15

Y1 - 2020/7/15

N2 - On the example of 40 ion pairs (5 cations times 8 anions), this study demonstrates how the core-level binding energy values can be calculated and used to plot theoretical spectra at low computational cost using density functional theory methods. Three approaches for obtaining the binding energy values are based on delta Kohn–Sham (ΔKS) calculations, 1s KS orbital energies, and atomic charges. The ΔKS results show reasonable agreement with the available experimental X-ray photoelectron data. The 1s KS orbital energies correlate well with the ΔKS results. Atomic charge correlation with ΔKS is improved by accounting for the charges of neighboring atoms. Assignment of binding energies to atoms and the applicability of the mentioned methods to model systems of ionic liquids are discussed.

AB - On the example of 40 ion pairs (5 cations times 8 anions), this study demonstrates how the core-level binding energy values can be calculated and used to plot theoretical spectra at low computational cost using density functional theory methods. Three approaches for obtaining the binding energy values are based on delta Kohn–Sham (ΔKS) calculations, 1s KS orbital energies, and atomic charges. The ΔKS results show reasonable agreement with the available experimental X-ray photoelectron data. The 1s KS orbital energies correlate well with the ΔKS results. Atomic charge correlation with ΔKS is improved by accounting for the charges of neighboring atoms. Assignment of binding energies to atoms and the applicability of the mentioned methods to model systems of ionic liquids are discussed.

KW - Green function

KW - X-ray photoelectron spectra

KW - core-level binding energy

KW - delta Kohn–Sham

KW - ionic liquid

UR - https://www.scopus.com/pages/publications/85085089917

U2 - 10.1002/qua.26247

DO - 10.1002/qua.26247

M3 - Article

AN - SCOPUS:85085089917

SN - 0020-7608

VL - 120

JO - International Journal of Quantum Chemistry

JF - International Journal of Quantum Chemistry

IS - 14

M1 - e26247

ER -

Calculation of core-level electron spectra of ionic liquids

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Keywords

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