Molecular-orbital calculations Subject

Heteroindacenes have been prepared and studied by Hafner and co-workers.198 199 The syntheses of 1,3,5,7-tetra-te/t-butyl-4-azaindacene, its AA-oxide, and l,3,5,7-tetra-tot-butyl-4-phospha-s-indacenes have been recently reported (Scheme 66).200 The 12-jt-electron delocalized systems have been studied by dynamic NMR and X-ray and were subjected to molecular orbital calculations, and there is strong evidence of electron delocalization. However, X-ray crystallographic data for 4-phospha-s-indacene 164 and the 4-7V-oxide 164 show that there is a dual orientation in the crystal this disorder with two different orientations of the molecule does not allow for conclusions regarding bond lengths or delocalization, and the mediated structures show a D2h symmetry rather than C2h with localized double bonds. 

Radical ions - charged species with unpaired electrons - are easily generated by a number of methods that are discussed in more detail below. Their properties have been characterized by several spectroscopic techniques, and their structures and spin density contributions have been the subject of molecular orbital calculations at different levels of sophistication. The behaviour of radical ions in rearrangement and isomerization reactions as well as in bond-cleavage reactions has been extensively studied [for recent reviews see Refs. 11-13 and references cited therein]. Useful synthetic applications, such as the radical-cation-catalyzed cycloaddition [14-20] or the anfi-Markovnikov addition of nucleophiles to alkenyl radical cations [21-25], have been well documented. In... 

The a-methylbenzyl cation (1) can be approached from the alcohol dehydration direction or the alkene protonation direction, as shown, and both of these processes have been the subject of ab initio molecular orbital calculations. It was found that the alcohol dehydration has a transition state about half way between the two stmctures shown, with the transition state and the carbocation having about the same amount of 7T-orbital overlap. However, the alkene protonation has an earlier transition state with less effective 7r-orbital overlap than that in the cation. This is held to explain the different Yukawa-Tsuno r+ values found for the two processes, 0.7-1.1 for alkene... 

There are many excellent books that cover this subject in great detail however, the simplest introductory work is J. D. Roberts, Molecular Orbital Calculations, W. A. Benjamin, Inc., Menlo Park, Calif., 1961. 

Molecular orbital calculations on phosphabenzene reproduce this ordering of frontier M.O. s 67,68). Although arsabenzene has been subjected to less theoretical... 

Ab initio molecular orbital calculations on these systems have been confined to the 1,2,3-triazolo[4,5-d]pyrimidines (7), the so-called 8-azapurines , and references to this subject may be found in the previously mentioned review <86AHC(39)ii7>. In 1989, quantum mechanical perturbation methods have been used to study the activity of 8-azapurine nucleoside antibiotics in transcription processes <89Mi 7i3-oi>. The l,2,3-thiadiazolo[5,4-d]pyrimidine derivative (51), a rearrangement product of 8-aza-6-thioinosine, has been used in a molecular modeling study of the antitumor activity of sugar derivatives of pyrimidopyrimidines <89PNA(86)8242>. 

The spectra of N, HN3 and vinyl azides were subjected to more refined molecular orbital calculations, but agreement was rather poor . (Sections III, D.2, III, E.)... 

In the period under review both ab initio and semi-empirical molecular orbital calculations of the electric field gradients at 14N nuclei have been reported. Pyrazole and imidazole have been the subjects of an ab initio approach using double zeta functions. (185) The calculated values of x an<3 7 are 111 g°°d agreement with experimental results obtained from microwave studies. The agreement is considerably better... 

---