Hydrogen substituents

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... 

Aliphatic sulfonyl chlorides that have a-hydrogen substituents, react with simple tertiary amines, such as trimethylamine, to generate sulfenes or perhaps their amine adducts 446). These species are suggested by the incorporation of one (but not more) deuterium atoms on reaction of sulfonyl chlorides with deuterated alcohols and triethylamine (447-450). A 2 1 adduct of sulfene and trimethylamine with proposed sulfonyl-sulfene structure could be isolated (451). 

The formation of a-acetoxyketones by oxidation of enamines with thallic acetate has been studied in detail (27) and found to be of preparative value (80 % yields) particularly in five- and six-membered-ring ketone derivatives. Enamines of linear or seven-membered-ring ketones were oxidized also, but at very much slower rates. Enamines of aldehydes with a-hydrogen substituents underwent self-eondensations during the oxidation reactions. Lead tetraacetate was less satisfactory as an oxidizing agent. 

In a study with captive male American kestrels (Drouillard et al. 2001), birds were dosed with Aroclor-contaminated diet and the toxicokinetics of 42 PCB congeners contained therein was stndied. Those congeners that were most rapidly cleared contained vicinal meta-para hydrogen substituents on at least one phenyl ring. This provides further evidence for the importance of open (i.e., not substituted by chlorine) meta-para positions for metabolic attack, an issue that will be returned to in the next section (Section 6.2.3). 

In some cases the effect of the nature of aromatic hydrogen substituent has been also observed (Table 48.2). These results contrast with those obtained using typical homogeneous Bronsted acid catalysts (e.g., sulphuric) for the acylation of the same substrate with acetic anhydride, under the same experimental conditions, where the yields (98%, 95%, 91% for R=N02, H, OMe, respectively) do not significantly depend on the nucleophile s substituent nature [23]. These data imderline the contribution of the heterogeneous catalyst. 

Results obtained in the acylation of aromatic sulfonamides with acetic acid, in the presence of SnOTf based catalysts are presented in Table 48.4. The rate of the sulfonamide acylation follows the seqnence benzenesnlfonamide > p-nitrobenzenesulfonamide > />-methoxybenzenesnlfonamide, and is very sensitive towards the nature of the aromatic hydrogen substituent (the selectivity in acylated />-methoxybenzenesnlfonamide did not exceed 7% irrespective of the catalyst nature this corresponds to an approximate relative yield... 

Cyanine and squaraine dyes with hydrogen substituents on the indolenine-nitrogen in one or both of the heterocyclic end-groups, the so-called norcyanines and norsquaraines, are useful as fluorescent pH-indicators due to the reversible equilibrium between their protonated and deprotonated forms ... 

Figure 4.12 Representations of the chair conformation of cyclohexane (a) Carbon skeleton only (b) Carbon and hydrogen atoms (c) Line drawing (d) Space-filling model of cyclohexane. Notice that there are two types of hydrogen substituents—those that project obviously up or down (shown in red) and those that lie around the perimeter of the ring in more subtle up or down orientations (shown in black or gray). We shall discuss this further in Section 4.13.

In summary, the Danheiser reactions are a family of [3 + 2] annulations that take place between allenylsilanes and diverse electrophiles. The products can be carbo-cycles or heterocycles. In all cases, the annulations proceed most efficiently when the allenylsilane has a non-hydrogen substituent on the carbon atom bearing the silicon. This is a consequence of the common mechanistic pathway that proceeds through a vinyl carbocation intermediate. 

Most of the substrates for these isomerizations have a tetrahedral carbon with at least one hydrogen substituent between the carbonyl group and the alkyne. Due to the comparable high acidity of this C-H bond neighboring the carbonyl group, already a weak base such as a carbonate, a tertiary amine or aluminum oxide can deprotonate this position and a subsequent protonation at the other end of the pro-pargyl/allenyl anion delivers the allene. 

Carboranes containing one, two or more carbon and up to six boron atoms have been shown to be much more stable with organyl groups than with hydrogen substituents. In particular B-ethyl groups stabilize carboranes kinetically with re-... 

When one of the substituents at phosphorus is hydrogen another parameter was needed for PZ jHj, to account for the number i of hydrogen substituents giving the equation ... 

The chiral centre must be a to the carbonyl and must contain a hydrogen substituent. If there is more than one chiral centre in the molecule with only one centre a to the carbonyl, then the other centres will... 

This is an equilibrium reaction, and it raises a couple of points. First, there are two a-positions in the ketone, so what about the COCH3-derived enolate anion The answer is that it is formed, but since the CH3 group is not chiral, proton removal and reprotonation have no consequence. Racemization only occurs where we have a chiral a-carbon carrying a hydrogen substituent. Second, the enolate anion resonance structure with charge on carbon is not planar, but roughly tetrahedral. If we reprotonate this, it must occur from just one side. Yes, but both enantiomeric forms of the carbanion will be produced, so we shall still get the racemic mixture. 

Oxidation of dialkylhydroxylamines with no a-hydrogen substituents proceeds in two reversible one-electron steps. The intermediate nitroxyl radical 2 is the stable species under ambient conditions. The more highly oxidised form 1 finds use as... 

Hydrazines with at least one hydrogen substituent on nitrogen are oxidised in aqueous solution to the substituted diazene. Oxidation takes place in both acid and basic solution. Phenylhydraziiie is oxidised by inorganic reagents such as iodine buffered by sodium hydrogen carbonate to form benzenediazonium ion. The latter combines with the substrate to form the isolated product [140]. 1,1-Disubstituted... 

The reduction of aliphatic nitrocompounds in acid solution proceeds in two steps. First the nitrosocompound is formed. A low steady state concen ation of 2-methyl-2-nitrosopropane has been detected during the reduction of 2-methyl-2-nitropropane [13]. At the cathode potential necessary to attach the first electron to a nitro group, the nitroso intermediate undergoes further reduction to the hydroxyla-mine. When the nitrocompound has one a-hydrogen substituent, tautomerism of the nitroso intermediate to an oxime is in competition with further reduction. Both temperature and proton availability affect the rate of this isomerisation. Reduction of aliphatic nitrocompounds to the hydroxylamine is usually carried out in acid solution at 0-5° C to minimise oxime formation [14, 15], The hydroxylamine is stable towards further reduction in acid solution. Oximes in acid solution are reduced... 

Another feature of carbenoid-type reactivity is the cyclopropanation (reaction c). Again, this reaction does not only take place in vinylidene but also in alkyl carbenoids . On the other hand, the intramolecular shift of a /3-aryl, cyclopropyl or hydrogen substituent, known as the Fritsch-Buttenberg-Wiechell rearrangement, is a typical reaction of a-lithiated vinyl halides (reaction d) . A particular carbenoid-like reaction occurring in a-halo-a-lithiocyclopropanes is the formation of allenes and simultaneous liberation of the corresponding lithium halide (equation 3). ... 

The VCD spectra of a series of chiral allenes have been recorded at the University of Minnesota using a dispersive VCD instrument (113). The spectrum of one of these compounds has been verified by FTIR-VCD (23). The molecules have a phenyl and a carboxyl substituent on opposite ends of the allene, and alkyl or hydrogen substituents in die remaining two positions. All the corresponding (S)-(+) enantiomers, 46, exhibit a single positive VCD feature and the (/ )-(-) enantiomers, 47, a negative VCD feature, at 1945 cm , with an anisotropy ratio of ca. 4 X 10 . 

When only one heteroatom of the dinucleophile possesses a hydrogen substituent, the reactions lead instead to alkenyl complexes rather than carbene compounds. Effectively, treatment of diphenylallenylidenes 1 and 6 with pyrazoles yields the heterocyclic derivatives 61 (Scheme 2.25) [76]. Interestingly, the dissymmetric 3-methylpyrazole (R=H, R = Me) provides only one regioisomer, in which the methyl group points towards the metal. This process, which formally corresponds to the addition of two nitrogen nuclei at C and Cy and a hydrogen atom at Cp, is assumed to take place through an initial nucleophilic attack at the Ca position. 

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