SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2013383485> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W2013383485 endingPage "1050" @default.
W2013383485 startingPage "1039" @default.
W2013383485 abstract "Abstract The present paper is concerned mainly with studies on the electronic structure of nonalternant hydrocarbons by quantum‐chemical methods. The references to original publications are by no means exhaustive, but an attempt has been made to cover the entire field. (Analogues and derivatives of non‐alternant hydrocarbons are only touched.) The intention is to outline the present situation with regard to quantum‐mechanical studies on non‐alternant hydrocarbons, and to indicate to the chemist the use of the theoretical characteristics obtained by various approximations of the MOLCAO method. The simplest modification of the MO–LCAO method is the Hückel approximation (HMO), in which the molecular orbitals ψi are expressed as linear combinations of the atomic orbitals ϕj; in the π‐electron approximation only the 2p z atomic orbitals are considered. For the interaction of n orbitals we have: The π electron densities and the bond ordes can be calculated from the coefficients cij of the molecular orbitals. The energies Ei of the molecular orbitals are found by solving the determinantal equation' the n permitted levels are given by: where α is the Columb integral of the 2P z orbital of carbon and β is the resonance intergral of the CC π‐bond (and also the unit of energy in the HMO theory). The occupied molecular orbital with the highest energy is denoted by k1 (normal state), and the unoccupied level with the lowest energy by k −1 (valence state). The transfer of an electron from k1 to k −1 is called N → V1 excitation. The main difference between the HMO method and the more accurate MOLCAO methods is that electronic interactions are explicitly taken into account in the latter; these methods are Pople's SCF (self‐consistent field) method and Pariser and Parr's LCI (limited configuration interaction) method." @default.
W2013383485 created "2016-06-24" @default.
W2013383485 creator A5084388556 @default.
W2013383485 date "1965-12-01" @default.
W2013383485 modified "2023-10-17" @default.
W2013383485 title "Electronic Structure and Properties of Non-Alternant Hydrocarbons" @default.
W2013383485 cites W1804455873 @default.
W2013383485 cites W1837764563 @default.
W2013383485 cites W1966637583 @default.
W2013383485 cites W1973372385 @default.
W2013383485 cites W1974051241 @default.
W2013383485 cites W1979113050 @default.
W2013383485 cites W1981485099 @default.
W2013383485 cites W1984507254 @default.
W2013383485 cites W1984780547 @default.
W2013383485 cites W1984943449 @default.
W2013383485 cites W1986286815 @default.
W2013383485 cites W1986726770 @default.
W2013383485 cites W1987306544 @default.
W2013383485 cites W1994634664 @default.
W2013383485 cites W2004779500 @default.
W2013383485 cites W2006193343 @default.
W2013383485 cites W2009827598 @default.
W2013383485 cites W2010739633 @default.
W2013383485 cites W2010855418 @default.
W2013383485 cites W2016301476 @default.
W2013383485 cites W2028467760 @default.
W2013383485 cites W2030353179 @default.
W2013383485 cites W2035266259 @default.
W2013383485 cites W2041472691 @default.
W2013383485 cites W2043273384 @default.
W2013383485 cites W2044980977 @default.
W2013383485 cites W2049441524 @default.
W2013383485 cites W2050416610 @default.
W2013383485 cites W2053560106 @default.
W2013383485 cites W2057733836 @default.
W2013383485 cites W2060869040 @default.
W2013383485 cites W2063485845 @default.
W2013383485 cites W2069667054 @default.
W2013383485 cites W2070066902 @default.
W2013383485 cites W2071193151 @default.
W2013383485 cites W2071514591 @default.
W2013383485 cites W2071609974 @default.
W2013383485 cites W2077359016 @default.
W2013383485 cites W2078003846 @default.
W2013383485 cites W2081955602 @default.
W2013383485 cites W2085291511 @default.
W2013383485 cites W2086485564 @default.
W2013383485 cites W2087427770 @default.
W2013383485 cites W2092441431 @default.
W2013383485 cites W2105226178 @default.
W2013383485 cites W2112283613 @default.
W2013383485 cites W2113958736 @default.
W2013383485 cites W2123231827 @default.
W2013383485 cites W2127006672 @default.
W2013383485 cites W2143996819 @default.
W2013383485 cites W2158352633 @default.
W2013383485 cites W2314423684 @default.
W2013383485 cites W2314447963 @default.
W2013383485 cites W2314661322 @default.
W2013383485 cites W2316551469 @default.
W2013383485 cites W2319190105 @default.
W2013383485 cites W2319811745 @default.
W2013383485 cites W2324218317 @default.
W2013383485 cites W2328017493 @default.
W2013383485 cites W2330304021 @default.
W2013383485 cites W2334135724 @default.
W2013383485 cites W2334153591 @default.
W2013383485 cites W2621764867 @default.
W2013383485 cites W4234443059 @default.
W2013383485 cites W4235362838 @default.
W2013383485 cites W4238418695 @default.
W2013383485 cites W4245855766 @default.
W2013383485 cites W4250368070 @default.
W2013383485 cites W4253777721 @default.
W2013383485 cites W4254373082 @default.
W2013383485 cites W1983091405 @default.
W2013383485 doi "https://doi.org/10.1002/anie.196510391" @default.
W2013383485 hasPublicationYear "1965" @default.
W2013383485 type Work @default.
W2013383485 sameAs 2013383485 @default.
W2013383485 citedByCount "43" @default.
W2013383485 countsByYear W20133834852012 @default.
W2013383485 countsByYear W20133834852014 @default.
W2013383485 countsByYear W20133834852015 @default.
W2013383485 countsByYear W20133834852016 @default.
W2013383485 countsByYear W20133834852017 @default.
W2013383485 countsByYear W20133834852018 @default.
W2013383485 countsByYear W20133834852019 @default.
W2013383485 countsByYear W20133834852020 @default.
W2013383485 countsByYear W20133834852022 @default.
W2013383485 countsByYear W20133834852023 @default.
W2013383485 crossrefType "journal-article" @default.
W2013383485 hasAuthorship W2013383485A5084388556 @default.
W2013383485 hasConcept C121332964 @default.
W2013383485 hasConcept C130188946 @default.
W2013383485 hasConcept C139358910 @default.
W2013383485 hasConcept C147120987 @default.