A Density Functional Theory Study of the Cu⁺ · O₂ and Cu⁺ · N₂ Adducts

Dawoud, Jamal N.; Fasfous, Ismail I.; Majdalawieh, Amin

Publication

A Density Functional Theory Study of the Cu⁺ · O₂ and Cu⁺ · N₂ Adducts

Dawoud, Jamal N.
;
Fasfous, Ismail I.
;
Majdalawieh, Amin

Date

2011

Author

Dawoud, Jamal N.
Fasfous, Ismail I.
Majdalawieh, Amin

Type

Article
Peer-Reviewed
Published version

Files

10.1515_znb-2012-0204.pdf

Adobe PDF, 363.78 KB

Abstract

The geometries and harmonic vibration frequencies of the Cu⁺·O₂ and Cu⁺ ·N₂ are determined by various density functional theory (DFT) methods employing different basis sets. The potential energy surfaces (PES) are examined. The Cu⁺·O₂ adduct exhibits a bent structure with a binding energy of 12.4 kcal mol⁻¹, whereas Cu⁺·N₂ exhibits a linear configuration with a binding energy of 23.5 kcal mol⁻¹. The binding energy values for the two adducts agree well with the available published experimental and theoretical data and hence are reliable.

A Density Functional Theory Study of the Cu⁺ · O₂ and Cu⁺ · N₂ Adducts

Dawoud, Jamal N.
;
Fasfous, Ismail I.
;
Majdalawieh, Amin

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A Density Functional Theory Study of the Cu⁺ · O₂ and Cu⁺ · N₂ Adducts

Dawoud, Jamal N. ; Fasfous, Ismail I. ; Majdalawieh, Amin

Date

Author

Advisor

Type

Degree

Citations

Files

Description

Abstract

DSpace URI

External URI

Collections

Dawoud, Jamal N.
;
Fasfous, Ismail I.
;
Majdalawieh, Amin