Detail publikačního výsledku

The ligand dissociations from MPS, DMPS and TMPS moecules by electron impact

LACKO, M.; AL MAHMOUD ALSHEIKH, A.; PAPP, P.; MATEJČÍK, Š.

Originální název

The ligand dissociations from MPS, DMPS and TMPS moecules by electron impact

Anglický název

The ligand dissociations from MPS, DMPS and TMPS moecules by electron impact

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

Methylphenyl Silane and Trimethylphenyl Silane molecules were studied using a crossed electron/molecular beams experiment. The ionization energies as well as the appearance energies with a focus on a dissociation of methyl and phenyl ligands were estimated. Considering the previous results of Dimethylphenyl Silane electron induced dissociation; the effect of substitution of methyl and hydrogen ligands will be described.

Anglický abstrakt

Methylphenyl Silane and Trimethylphenyl Silane molecules were studied using a crossed electron/molecular beams experiment. The ionization energies as well as the appearance energies with a focus on a dissociation of methyl and phenyl ligands were estimated. Considering the previous results of Dimethylphenyl Silane electron induced dissociation; the effect of substitution of methyl and hydrogen ligands will be described.

Klíčová slova

Ab initio, Density functional theory, Fragmentation energy, Optimization Geometry

Klíčová slova v angličtině

Ab initio, Density functional theory, Fragmentation energy, Optimization Geometry

Autoři

LACKO, M.; AL MAHMOUD ALSHEIKH, A.; PAPP, P.; MATEJČÍK, Š.

Vydáno

09.07.2014

Místo

Bratislava

ISBN

978-80-8147-021-9

Kniha

Proceedings of CEPAS 6

Strany od

53

Strany do

57

Strany počet

5

BibTex

@inproceedings{BUT109574,
  author="Michal {Lacko} and Amer {Al Mahmoud Alsheikh} and Peter {Papp} and Štefan {Matejčík}",
  title="The ligand dissociations from MPS, DMPS and TMPS moecules by electron impact",
  booktitle="Proceedings of CEPAS 6",
  year="2014",
  pages="53--57",
  address="Bratislava",
  isbn="978-80-8147-021-9"
}