ELECTROSTATIC AND CHEMICAL BONDING CONTRIBUTIONS TO THE CATION CORE-LEVEL BINDING-ENERGY SHIFTS IN MGO, CAO, SRO, BAO - A CLUSTER MODEL STUDY

Surface core-level binding energy shifts for MgO(100)

Nelin, C.
Uhl, F.
Staemmler, V.
Bagus, P.
Fujimori, Y.
Sterrer, M.
Kuhlenbeck, H.
Freund, H.

October 2014

Theoretical and experimental results for the surface core-level binding energy, BE, shifts, SCLS, fo...

Mechanisms responsible for chemical shifts of core-level binding energies and their relationship to chemical bonding

Bagus P.S.
Illas F.
Pacchioni G.
Parmigiani F.

January 1999

A comprehensive review of different mechanisms which contribute to the chemical shifts of core-level...

Many-body effects in ionic systems

Wilson, Mark.
Madden, Paul A.
Paul Madden

January 1994

The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...

Electrostatic and chemical bonding contributions to the cation core level binding energy shifts in MgO, CaO, SrO, BaO. A cluster model study

Sousa C.
Minerva T.
Pacchioni G.
Bagus P. S.
Parmigiani F.

January 1993

We have determined cluster model wavefunctions to identify the origin of the trend for the chemical ...

Chemical shifts of the core-level binding energies for the alkaline-earth oxides

Bagus P. S.
Pacchioni G.
Sousa C.
Minerva T.
Parmigiani F.

January 1992

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

CHEMICAL-SHIFTS OF THE CORE-LEVEL BINDING-ENERGIES FOR THE ALKALINE-EARTH OXIDES

BAGUS P.S.
PACCHIONI G.
SOUSA C.
MINERVA T.
PARMIGIANI F.

January 1992

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of the trend of the chemical shifts of the binding energies, BEs, of the metal core levels. Two cancelling initial states mechanisms in the oxides are responsible for the trend. One is the increase of the BEs for the dication over the neutral atom. The second is the decrease of the free dication BEs due to the Madelung potential of the ionic oxides. The trend given by the sum of these two contributions to the chemical shifts is in full agreement with experiment. These mechanisms are electrostatic and do not involve chemical bonding effects.

BAGUS PS.
PACCHIONI G.
SOUSA C.
MINERVA T.
PARMIGIANI F.

January 1993

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

THEORETICAL-ANALYSIS OF THE O(1S) BINDING-ENERGY SHIFTS IN ALKALINE-EARTH OXIDES - CHEMICAL OR ELECTROSTATIC CONTRIBUTIONS

PACCHIONI, G
BAGUS, PS

July 1994

We report results from ab initio cluster-model calculations on the O(1s) binding energy (BE) in the ...

MEASURES OF IONICITY OF ALKALINE-EARTH OXIDES FROM THE ANALYSIS OF AB-INITIO CLUSTER WAVE-FUNCTIONS

PACCHIONI G.
SOUSA C.
ILLAS F.
PARMIGIANI F.
BAGUS P.S.

January 1993

We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...

Measures of ionicity of alkaline-earth oxides from the analysis of ab initio cluster wave functions

Pacchioni, Gianfranco
Sousa Romero, Carmen
Illas i Riera, Francesc
Parmigiani, Fulvio
Bagus, Paul S.

We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...

Revisiting surface core-level shifts for ionic compounds

Bagus, P.
Nelin, C.
Zhao, X.
Levchenko, S.
Davis, E.
Weng, X.
Späth, F.
Papp, C.
Kuhlenbeck, H.
Freund, H.

September 2019

The shifts of core-level binding energies can provide powerful information about the electronic stru...

Surface core level BE shifts for CaO(100): insights into physical origins

Bagus, P.
Nelin, C.
Levchenko, S.
Zhao, X.
Davis, E.
Kuhlenbeck, H.
Freund, H.

December 2019

The relationship between the electronic structure of CaO and the binding energy, BE, shifts between ...

Limiting properties of (MgO)(n) and (CaO)(n) clusters

Bawa, Fathi
Panas, Itai

January 2001

The limiting behaviours of bond distances and binding energies are studied for small alkaline earth ...

MECHANISMS RESPONSIBLE FOR THE SHIFTS OF CORE-LEVEL BINDING-ENERGIES BETWEEN SURFACE AND BULK ATOMS OF METALS

BAGUS P.S.
BRUNDLE C.R.
PACCHIONI G.
PARMIGIANI F.

January 1993

Interpretations are given for the core-level binding energies, BE's, of the surface and bulk atoms o...

Surface properties of alkaline earth metal oxides

Broqvist, Peter
Grönbeck, Henrik
Panas, Itai

January 2004

Structural and energetic surface properties of the alkaline earth metal oxides MgO, CaO, SrO, and Ba...

Surface core-level binding energy shifts for MgO(100)

Nelin, C.
Uhl, F.
Staemmler, V.
Bagus, P.
Fujimori, Y.
Sterrer, M.
Kuhlenbeck, H.
Freund, H.

October 2014

Theoretical and experimental results for the surface core-level binding energy, BE, shifts, SCLS, fo...

Mechanisms responsible for chemical shifts of core-level binding energies and their relationship to chemical bonding

Bagus P.S.
Illas F.
Pacchioni G.
Parmigiani F.

January 1999

A comprehensive review of different mechanisms which contribute to the chemical shifts of core-level...

Many-body effects in ionic systems

Wilson, Mark.
Madden, Paul A.
Paul Madden

January 1994

The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...

Electrostatic and chemical bonding contributions to the cation core level binding energy shifts in MgO, CaO, SrO, BaO. A cluster model study

Sousa C.
Minerva T.
Pacchioni G.
Bagus P. S.
Parmigiani F.

January 1993

We have determined cluster model wavefunctions to identify the origin of the trend for the chemical ...

Chemical shifts of the core-level binding energies for the alkaline-earth oxides

Bagus P. S.
Pacchioni G.
Sousa C.
Minerva T.
Parmigiani F.

January 1992

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

CHEMICAL-SHIFTS OF THE CORE-LEVEL BINDING-ENERGIES FOR THE ALKALINE-EARTH OXIDES

BAGUS P.S.
PACCHIONI G.
SOUSA C.
MINERVA T.
PARMIGIANI F.

January 1992

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of the trend of the chemical shifts of the binding energies, BEs, of the metal core levels. Two cancelling initial states mechanisms in the oxides are responsible for the trend. One is the increase of the BEs for the dication over the neutral atom. The second is the decrease of the free dication BEs due to the Madelung potential of the ionic oxides. The trend given by the sum of these two contributions to the chemical shifts is in full agreement with experiment. These mechanisms are electrostatic and do not involve chemical bonding effects.

BAGUS PS.
PACCHIONI G.
SOUSA C.
MINERVA T.
PARMIGIANI F.

January 1993

Cluster model wavefunctions for the alkaline-earth oxides are analyzed to determine the origin of th...

THEORETICAL-ANALYSIS OF THE O(1S) BINDING-ENERGY SHIFTS IN ALKALINE-EARTH OXIDES - CHEMICAL OR ELECTROSTATIC CONTRIBUTIONS

PACCHIONI, G
BAGUS, PS

July 1994

We report results from ab initio cluster-model calculations on the O(1s) binding energy (BE) in the ...

MEASURES OF IONICITY OF ALKALINE-EARTH OXIDES FROM THE ANALYSIS OF AB-INITIO CLUSTER WAVE-FUNCTIONS

PACCHIONI G.
SOUSA C.
ILLAS F.
PARMIGIANI F.
BAGUS P.S.

January 1993

We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...

Measures of ionicity of alkaline-earth oxides from the analysis of ab initio cluster wave functions

Pacchioni, Gianfranco
Sousa Romero, Carmen
Illas i Riera, Francesc
Parmigiani, Fulvio
Bagus, Paul S.

We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...

Revisiting surface core-level shifts for ionic compounds

Bagus, P.
Nelin, C.
Zhao, X.
Levchenko, S.
Davis, E.
Weng, X.
Späth, F.
Papp, C.
Kuhlenbeck, H.
Freund, H.

September 2019

The shifts of core-level binding energies can provide powerful information about the electronic stru...

Surface core level BE shifts for CaO(100): insights into physical origins

Bagus, P.
Nelin, C.
Levchenko, S.
Zhao, X.
Davis, E.
Kuhlenbeck, H.
Freund, H.

December 2019

The relationship between the electronic structure of CaO and the binding energy, BE, shifts between ...

Limiting properties of (MgO)(n) and (CaO)(n) clusters

Bawa, Fathi
Panas, Itai

January 2001

The limiting behaviours of bond distances and binding energies are studied for small alkaline earth ...

MECHANISMS RESPONSIBLE FOR THE SHIFTS OF CORE-LEVEL BINDING-ENERGIES BETWEEN SURFACE AND BULK ATOMS OF METALS

BAGUS P.S.
BRUNDLE C.R.
PACCHIONI G.
PARMIGIANI F.

January 1993

Interpretations are given for the core-level binding energies, BE's, of the surface and bulk atoms o...

Surface properties of alkaline earth metal oxides

Broqvist, Peter
Grönbeck, Henrik
Panas, Itai

January 2004

Structural and energetic surface properties of the alkaline earth metal oxides MgO, CaO, SrO, and Ba...

Surface core-level binding energy shifts for MgO(100)

Nelin, C.
Uhl, F.
Staemmler, V.
Bagus, P.
Fujimori, Y.
Sterrer, M.
Kuhlenbeck, H.
Freund, H.

October 2014

Theoretical and experimental results for the surface core-level binding energy, BE, shifts, SCLS, fo...

Mechanisms responsible for chemical shifts of core-level binding energies and their relationship to chemical bonding

Bagus P.S.
Illas F.
Pacchioni G.
Parmigiani F.

January 1999

A comprehensive review of different mechanisms which contribute to the chemical shifts of core-level...

Many-body effects in ionic systems

Wilson, Mark.
Madden, Paul A.
Paul Madden

January 1994

The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...

ELECTROSTATIC AND CHEMICAL BONDING CONTRIBUTIONS TO THE CATION CORE-LEVEL BINDING-ENERGY SHIFTS IN MGO, CAO, SRO, BAO - A CLUSTER MODEL STUDY

Abstract

Extracted data

ELECTROSTATIC AND CHEMICAL BONDING CONTRIBUTIONS TO THE CATION CORE-LEVEL BINDING-ENERGY SHIFTS IN MGO, CAO, SRO, BAO - A CLUSTER MODEL STUDY

Abstract

Extracted data

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