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A bonds substituents

Phosphinidenes (R-P) differ from other low-coordinate organophosphorus compounds, such as phosphaalkynes (R-C=P), phosphaalkenes (R2C=PR), and phosphaaromatics, in that the phosphorus atom carries only a single a-bonded substituent [7-9]. They relate to carbenes, nitrenes, and silylenes and likewise can exist as singlet and triplet species. The advances that led to stable carbenes [10, 11] and silylenes [12] stimulated an exploration of the chemistry of phosphinidenes. [Pg.96]

After a decade of research the basic principles in the chemistry of decamethylsilicocene (1) seem to be understood. This compound shows the reactivity of a nucleophilic silylene due to the fact that the Tt-bonded pentamethylcyclopentadienyl ligands are easily transferred to a-bonded substituents during the reaction. The steric requirements of these substituents permit reactions with bulky substrates. The migratory aptitude and the leaving-group character of the pentamethylcyclopentadienyl groups... [Pg.31]

The interaction of alkyl(aryl)lithium with chlorides (CgHg)LnCl allows to prepare cyclooctatetraenyl complexes with a-bonded substituents of the (CgH8)LnR type [45, 46] (see Section I.3.). [Pg.262]

Syntheses are no longer viewed in terms of known name reactions and single steps, but as the global transformation of a skeleton and its pattern of polarities and potential charges obtained through the lieterolysis of a bond that can be stabilised by entire classes of substituents. [Pg.570]

The breaking of a strategic bond and the generation of synthesis precursors defines a synthesis reaction. In the simplest case, the reaction is already known from literature. In most cases, however, the rcaaion step obtained has to be generalised in order to find any similar and successfully performed reactions with a similar substituent pattern or with a similar rearrangement of bonds. One way of generalizing a reaction is to identify the reaction center and the reaction substructure of the reaction. This defines a reaction type. [Pg.571]

Category Ic cyclizations involve formation of the C3-C3a bond and require aniline derivatives with a nitrogen substituent appropriate for such reaction. Some, but not all, such cyclizations also require an o-substituent, frequently halogen. The rctrosynthetic transformations corresponding to the most important of this group of syntheses are shown in Scheme 4.1... [Pg.35]

The barriers to rotation about the N-C bond have been determined b dynamic nuclear magnetic resonance for A -isopropyl (80. 81). propanoic acid (74). A -ethyl (82). N-benzyl. and A -neopentyl substituents (82). Selected values of these barriers are given in Tables VII-6 and VII-7. [Pg.384]

As portrayed m Figure 2 20 the two carbons of acetylene are connected to each other by a 2sp-2sp cr bond and each is attached to a hydrogen substituent by a 2sp-ls CT bond The unhybndized 2p orbitals on one carbon overlap with their counterparts on the other to form two rr bonds The carbon-carbon triple bond m acetylene is viewed as a multiple bond of the ct + rr + rr type... [Pg.92]

Some of the evidence indicating that alkyl substituents stabilize free radicals comes from bond energies The strength of a bond is measured by the energy required to break It A covalent bond can be broken m two ways In a homolytic cleavage a bond between two atoms is broken so that each of them retains one of the electrons m the bond... [Pg.169]

Epoxidation of alkenes with peroxy acids is a syn addition to the double bond Substituents that are cis to each other in the alkene remain cis in the epoxide substituents that are trans in the alkene remain trans m the epoxide... [Pg.262]

This chapter focused on the effect of a carbon-carbon double bond as a stabilizing substituent on a positively charged carbon m an allylic carbocation, on a carbon bearing... [Pg.415]

The anomeric carbon of a furanose or pyranose form of a ketose bears both a hydroxyl group and a carbon substituent In the case of 2 ketoses this substituent is a CH2OH group As with aldoses the anomeric carbon of a cyclic hemiacetal is readily identifi able because it is bonded to two oxygens... [Pg.1041]

The structure of vitamin D2 is the same as that of vitamin D3 except that vitamin D2 has a double bond between C 22 and C 23 and a methyl substituent at C 24... [Pg.1252]

The presence of a small substituent capable of forming hydrogen bonds in the 4 -position. Isosteric groups such as NH2 reduce activity, whereas any other group that cannot be converted metabohcaHy to a 4 -OH group results in inactive compounds. [Pg.50]

These 0-bonded substituents are easily cleaved with hydroxide ion to give the corresponding hydroxyl derivative, [B H (OH)] or [B H 2(OH)2] , n = 10,12. Halogenation of [B22H22] A by HCl and HF has been termed acid-catalyzed nucleophilic attack (95). [Pg.237]

Ring substituents show enhanced reactivity towards nucleophilic substitution, relative to the unoxidized systems, with substituents a to the fV-oxide showing greater reactivity than those in the /3-position. In the case of quinoxalines and phenazines the degree of labilization of a given substituent is dependent on whether the intermediate addition complex is stabilized by mesomeric interactions and this is easily predicted from valence bond considerations. 2-Chloropyrazine 1-oxide is readily converted into 2-hydroxypyrazine 1-oxide (l-hydroxy-2(l//)-pyrazinone) (55) on treatment with dilute aqueous sodium hydroxide (63G339), whereas both 2,3-dichloropyrazine and 3-chloropyrazine 1-oxide are stable under these conditions. This reaction is of particular importance in the preparation of pyrazine-based hydroxamic acids which have antibiotic properties. [Pg.172]

Other solvents can be divided into several classes. In hydrogen bond-breaking solvents (dipolar aprotics), the simple amino, hydroxy and mercapto heterocycles all dissolve. In the hydrophobic solvents, hydrogen bonding substituents greatly decrease the solubility. Ethanol and other alcohols take up a position intermediate between water and the hydro-phobic solvents (63PMH 1)177). [Pg.32]

The initial bond formation between the -> ir excited carbonyl compound and an alkene can occur by interaction of the half-filled n -orbital of the [I CO] with the ir-system of the alkene, in a sense transferring a tt-electron to the -orbital and making a bond between an alkene carbon and the carbonyl oxygen. In this process (common for electron rich olefins) the plane formed by the alkene carbons and their four substituents is perpendicular to the plane of the carbonyl groups and its two substituents (Figure 1). In the... [Pg.39]

The unequal distribution of electron density in covalent bonds produces a bond dipole, the magnitude of which is expressed by the dipole moment, having the units of charge times distance. Bonds with significant bond dipoles are described as being polar. The bond and group dipole moments of some typical substituents are shown in Table 1.7. [Pg.16]

Field effects can be determined by calculating the effect of a bond dipole on a molecular probe at a specifted distance. One system that has been examined is H2 aligned with an H—X molecule. The substituent effect is related to the charge which develops at Ha, relative to the case where X = H. [Pg.212]

A special type of substituent effect which has proved veiy valuable in the study of reaction mechanisms is the replacement of an atom by one of its isotopes. Isotopic substitution most often involves replacing protium by deuterium (or tritium) but is applicable to nuclei other than hydrogen. The quantitative differences are largest, however, for hydrogen, because its isotopes have the largest relative mass differences. Isotopic substitution usually has no effect on the qualitative chemical reactivity of the substrate, but often has an easily measured effect on the rate at which reaction occurs. Let us consider how this modification of the rate arises. Initially, the discussion will concern primary kinetic isotope effects, those in which a bond to the isotopically substituted atom is broken in the rate-determining step. We will use C—H bonds as the specific topic of discussion, but the same concepts apply for other elements. [Pg.222]

The discussion of /3-elimination processes thus far has focused on reactions that involve removal of a proton bound to carbon. It is the electrons in the C—H a bond, however, that are essential to the elimination process. Compounds bearing other substituents that can release electrons can undergo similar /3 eliminations. Many such processes are known, and frequently the reactions are stereospecific. [Pg.393]

An interesting and useful property of enamines of 2-alkylcyclohexanones is the fact that there is a substantial preference for the less substituted isomer to be formed. This tendency is especially pronounced for enamines derived from cyclic secondaiy amines such as pyrrolidine. This preference can be traced to a strain effect called A or allylic strain (see Section 3.3). In order to accommodate conjugation between the nitrogen lone pair and the carbon-carbon double bond, the nitrogen substituent must be coplanar with the double bond. This creates a steric repulsion when the enamine bears a p substituent and leads to a... [Pg.431]

See other pages where A bonds substituents is mentioned: [Pg.180]    [Pg.131]    [Pg.180]    [Pg.96]    [Pg.180]    [Pg.131]    [Pg.180]    [Pg.96]    [Pg.731]    [Pg.146]    [Pg.211]    [Pg.194]    [Pg.501]    [Pg.914]    [Pg.1290]    [Pg.220]    [Pg.256]    [Pg.500]    [Pg.502]    [Pg.30]    [Pg.36]    [Pg.112]    [Pg.142]    [Pg.249]    [Pg.75]    [Pg.48]    [Pg.194]    [Pg.19]    [Pg.141]    [Pg.151]    [Pg.173]   
See also in sourсe #XX -- [ Pg.342 , Pg.343 , Pg.344 , Pg.345 , Pg.346 ]



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Angular group induced bond alternation - a new substituent effect detected by molecular geometry

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