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Literature DB >> 20886943

New study of the stability and of the spectroscopy of the molecular anions NCO- and CNO-.

Abstract

Using highly correlated wave functions, the ground and the low lying excited states of the molecular NCO(-) and CNO(-) anions have been reinvestigated. The stability of the electronic ground state of the two isomers with respect to dissociation and to electron detachment has been checked along the isomerization pathway. The regions of stability of the excited electronic states have been analyzed and identified and it is shown that only the ground state is stable and the corresponding potential energy surface presents three equilibrium positions. The rovibronic spectroscopy of the X (1)Σ(+) state of both NCO(-) and CNO(-) isomers has been determined by a variational approach leading to remarkable agreement with experimental data.

Entities: Gene

Year: 2010 PMID： 20886943 DOI： 10.1063/1.3483463

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

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Cited

4 in total

4. Isolation of Au-, Co-η¹PCO and Cu-η²PCO complexes, conversion of an Ir-η¹PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.

Authors: Liu Liu; David A Ruiz; Fatme Dahcheh; Guy Bertrand; Riccardo Suter; Aaron M Tondreau; Hansjörg Grützmacher
Journal: Chem Sci Date: 2016-01-04 Impact factor: 9.825

4 in total

New study of the stability and of the spectroscopy of the molecular anions NCO- and CNO-.

1. Molecular properties of the PCO radical: heat of formation and the isomerization pathways.

2. Forming NCO(-) in Dense Molecular Clouds: Possible Gas-Phase Chemical Paths From Quantum Calculations.

3. First Laboratory Detection of N¹³CO^- and Semiexperimental Equilibrium Structure of the NCO^- Anion.

4. Isolation of Au-, Co-η¹PCO and Cu-η²PCO complexes, conversion of an Ir-η¹PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.

New study of the stability and of the spectroscopy of the molecular anions NCO- and CNO-.

1. Molecular properties of the PCO radical: heat of formation and the isomerization pathways.

2. Forming NCO(-) in Dense Molecular Clouds: Possible Gas-Phase Chemical Paths From Quantum Calculations.

3. First Laboratory Detection of N13CO- and Semiexperimental Equilibrium Structure of the NCO- Anion.

4. Isolation of Au-, Co-η1PCO and Cu-η2PCO complexes, conversion of an Ir-η1PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.

3. First Laboratory Detection of N¹³CO^- and Semiexperimental Equilibrium Structure of the NCO^- Anion.

4. Isolation of Au-, Co-η¹PCO and Cu-η²PCO complexes, conversion of an Ir-η¹PCO complex into a dimetalladiphosphene, and an interaction-free PCO anion.