Theoretical study of structural patterns in CH2OP2 isomers | Zendy

Raluca Şeptelean | Zendy; Petronela M. Petrar | Zendy; Nemes Gabriela | Zendy; J. Escudié | Zendy; Ioan SilaghiDumitrescu | Zendy

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Theoretical study of structural patterns in CH2OP2 isomers

Author(s) -

Raluca Şeptelean,

Petronela M. Petrar,

Nemes Gabriela,

J. Escudié,

Ioan SilaghiDumitrescu

Publication year - 2010

Publication title -

journal of molecular modeling

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.363

H-Index - 69

eISSN - 1610-2940

pISSN - 0948-5023

DOI - 10.1007/s00894-010-0872-8

Subject(s) - phosphorane , chemistry , degree of unsaturation , singlet state , total energy , stereochemistry , crystallography , computational chemistry , excited state , organic chemistry , physics , psychology , nuclear physics , displacement (psychology) , psychotherapist

DFT calculations have been performed on the derivatives of formula CH₂OP₂ to determine their total energy, the relative energy between the isomers and their geometry. Among compounds with a P-C-P linkage, the most stable one is the 2-hydroxy-1,2-diphosphirene II.1, a three-membered heterocycle with a P=C unsaturation. The phosphavinylidene(oxo)phosphorane HP=C=P(O)H IV.5 (which has the same skeleton as the experimentally obtained Mes*P=C=P(O)Mes*) lies 36.30 kcal mol⁻¹ above it. The least stable compounds are carbenes; the singlet carbenes are more stable than the triplet ones.

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