Prediction of core level binding energies in density functional theory: Rigorous definition of initial and final state contributions and implications on the physical meaning of Kohn-Sham energies

Bellafont, Noèlia Pueyo; Bagus, Paul S.; Illas, Francesc

doi:10.1063/1.4921823

Cited by 87 publications

(145 citation statements)

References 59 publications

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“…In this investigation, absolute values of orbital energies from the B3LYP computations are not used to derive ionization energies, but rather, we employ their difference to yield excitation energies, i.e., term energies for excited electronic states. This approach has been proved to provide reliable results . Based on the study of furan and some of its derivatives by Klapstein et al ., the second band appears as a result of the removal of an electron from the oxygen's lone pair in the furan ring.…”

Section: Resultssupporting

confidence: 69%

Absolute photoionization cross sections of furanic fuels: 2‐ethylfuran, 2‐acetylfuran and furfural

Smith

Meloni

2015

J. Mass Spectrom.

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Absolute photoionization cross sections of the molecules 2-ethylfuran, 2-acetylfuran and furfural, including partial ionization cross sections for the dissociative ionized fragments, are measured for the first time. These measurements are important because they allow fuel quantification via photoionization mass spectrometry and the development of quantitative kinetic modeling for the complex combustion of potential fuels. The experiments are carried out using synchrotron photoionization mass spectrometry with an orthogonal time-of-flight spectrometer used for mass analysis at the Advanced Light Source of Lawrence Berkeley National Laboratory. The CBS-QB3 calculations of adiabatic ionization energies and appearance energies agree well with the experimental results. Several bond dissociation energies are also derived and presented.

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Section: Resultssupporting

confidence: 69%

Absolute photoionization cross sections of furanic fuels: 2‐ethylfuran, 2‐acetylfuran and furfural

Smith

Meloni

2015

J. Mass Spectrom.

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“…Some reasons are purely technical and some other have a more fundamental origin 58,59. Interestingly, Kohn-Sham orbital energies with respect to a given reference follow the experimental trend, as shown in recent work50,51 and illustrated here with the example of C(1s) for the TFAA molecule above, and this is the origin of the success of many theoretical works. This is usual convention but note the experiments for the gas phase TFAA molecule report C(1s) binding energies of 296.5 and 299.3 for the C atom in the -COO and -CF 3 groups respectively 60.…”

supporting

confidence: 75%

Adsorption properties of trifluoroacetic acid on anatase (101) and (001) surfaces: a density functional theory study

Lamiel-García

Fernández-Hevia

Caballero

et al. 2015

Phys. Chem. Chem. Phys.

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The interaction of trifluoroacetic acid with anatase TiO2(101) and TiO2(001) surfaces has been studied by means of periodic density functional theory based calculations. On the former, the interaction is weak with the adsorbed molecules in a configuration almost indistinguishable from the gas phase structure. On the latter, the interaction is very strong; the molecule adsorbs as trifluoroacetate and releases a proton that binds an oxygen surface atom with a significant distortion of the substrate. The difference in adsorption the mode and strength can be understood from the different structural features of both surfaces and provides arguments to the role of trifluoroacetic as a morphological control agent in the solvothermal synthesis of TiO2 nanoparticles with predominant (001) facets. This, in turn, has a very significant impact on industrial production strategies of value-added TiO2 for photocatalytic applications. Analysis of calculated core level binding energies for F(1s) confirms the experimental assignment to F at the surface as F(-) at Ti surface sites and to F in -CF3 groups of the adsorbed molecule.

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“…Other approaches include initial state (IS) approximations, which considers that Kohn–Sham (KS) eigenstate energies in the electronic ground state as approximations to BE —similar to Koopmans theorem in HF, a statement recently discussed unambiguously showing that while Koopmans theorem does not hold for the KS eigenvalues, it properly reflects the trends in ΔBEs . The proper way to define IS BEs from DFT calculations has also been described by some of us . An alternative approach is provided by the model known as Janak–Slater (JS) transition state method, which, in a nutshell, considers half occupation of the CL when estimating BEs rather than a full core‐hole as in the FS approach, see Figure .…”

Section: Introductionmentioning

confidence: 99%

Predicting core level binding energies shifts: Suitability of the projector augmented wave approach as implemented in VASP

2017

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Here, we assess the accuracy of various approaches implemented in Vienna ab initio simulation package code to estimate core‐level binding energy shifts (ΔBEs) using a projector augmented wave method to treat core electrons. The performance of the Perdew–Burke–Ernzerhof (PBE) and the Tao–Perdew–Staroverov–Scuseria (TPSS) exchange‐correlation density functionals is examined on a dataset of 68 molecules containing B→F atoms in diverse chemical environments, accounting for 185 different 1s core level binding energy shifts, for which both experimental gas‐phase X‐ray photoemission (XPS) data and accurate all electron ΔBEs are available. Four procedures to calculate core‐level shifts are investigated. Janak–Slater transition state approach yields mean absolute errors of 0.37 (0.21) eV at PBE (TPSS) level, similar to highly accurate all electron ΔSCF approaches using same functionals, and close to XPS experimental accuracy of 0.1 eV. The study supports the use of these procedures to assign ΔBEs of molecular moieties on material surfaces of interest in surface science, nanotechnology, and heterogeneous catalysis. © 2017 Wiley Periodicals, Inc.

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Prediction of core level binding energies in density functional theory: Rigorous definition of initial and final state contributions and implications on the physical meaning of Kohn-Sham energies

Cited by 87 publications

References 59 publications

Absolute photoionization cross sections of furanic fuels: 2‐ethylfuran, 2‐acetylfuran and furfural

Absolute photoionization cross sections of furanic fuels: 2‐ethylfuran, 2‐acetylfuran and furfural

Adsorption properties of trifluoroacetic acid on anatase (101) and (001) surfaces: a density functional theory study

Predicting core level binding energies shifts: Suitability of the projector augmented wave approach as implemented in VASP

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